notes on research methodology for MBA II
UNIT I
Q.1. What do you mean by research?
Explain its objectives, significance and types?
Ans. Research
in simple terms refers to search for knowledge. It is a scientific and
systematic search for information on a particular topic or issue. It is also
known as the art of scientific investigation.
According to Redman
and Mory (1923), research is a “systematized effort to gain new knowledge”. It
is an academic activity and therefore the term should be used in a technical
sense. According to Clifford Woody, research comprises “defining and redefining
problems, formulating hypotheses or suggested solutions; collecting, organizing
and evaluating data; making deductions and reaching conclusions; and finally,
carefully testing the conclusions to determine whether they fit the formulated
hypotheses”.
Thus, research is an
original addition to the available knowledge, which contributes to its further
advancement. It is an attempt to pursue truth through the methods of study,
observation, comparison and experiment. In sum, research is the search for
knowledge, using objective and systematic methods to find solution to a
problem.
Objectives of
Research:
The objective of
research is to find answers to the questions by applying scientific procedures.
In other words, the main aim of research is to find out the truth which is
hidden and has not yet been discovered. Although every research study has its
own specific objectives, the research objectives may be broadly grouped as
follows:
1.
To
gain familiarity with new insights into a phenomenon (i.e., formulative
research studies);
2.
To
accurately portray the characteristics of a particular individual, group, or a
situation (i.e., descriptive research studies);
3.
To
analyse the frequency with which something occurs (i.e., diagnostic research
studies); and
4. To examine
the hypothesis of a causal relationship between two variables (i.e., hypothesis-testing research studies).
Significance of Research:
According to a famous Hudson Maxim, “All progress is born of
inquiry. Doubt is often better than overconfidence, for it leads to inquiry,
and inquiry leads to invention”. It brings out the significance of research,
increased amount of which makes the progress possible. Research encourages
scientific and inductive thinking, besides promoting the development of logical
habits of thinking and organisation. The role of research in applied economics
in the context of an economy or business is greatly increasing in modern times.
The increasingly complex nature of government and business has raised the use
of research in solving operational problems. Research assumes significant role
in the formulation of economic policy for both, the government and business. It
provides the basis for almost all government policies of an economic system.
Government budget formulation, for example, depends particularly on the
analysis of needs and desires of people, and the availability of revenues,
which requires research. Research helps to formulate alternative policies, in
addition to examining the consequences of these alternatives. Thus, research
also facilitates the decision-making of policy-makers, although in it is not a
part of research. In the process, research also helps in the proper allocation
of a country’s scarce resources.
Research is also necessary for collecting information on the
social and economic structure of an economy to understand the process of change
occurring in the country. Collection of statistical information, though not a
routine task, involves various research problems. Therefore, large staff of
research technicians or experts is engaged by the government these days to
undertake this work.
Research also assumes significance in solving various operational
and planning problems associated with business and industry. In several ways,
operations research, market research and motivational research are vital and
their results assist in taking business decisions. Market research refers to
the investigation of the structure and development of a market for the formulation
of efficient policies relating to purchases, production and sales. Operational
research relates to the application of logical, mathematical, and analytical
techniques to find solution to business problems, such as cost minimization or
profit maximization, or the optimization problems. Motivational research helps
to determine why people behave in the manner they do with respect to market
characteristics. More specifically, it is concerned with the analysis of the
motivations underlying consumer behaviour. All these researches are very useful
for business and industry, and are responsible for business decision-making.
Research is equally important to social scientists for analyzing
the social relationships and seeking explanations to various social problems.
It gives intellectual satisfaction of knowing things for the sake of knowledge.
It also possesses the practical utility for the social scientist to gain
knowledge so as to be able to do something better or in a more efficient
manner. The research in social sciences is concerned with both knowledge for
its own sake, and knowledge for what it can contribute to solve practical
problems.
Types of Research:
1. Descriptive Versus Analytical:
Descriptive research consists of surveys and fact-finding enquiries
of different types. The main objective of descriptive research is describing
the state of affairs as it prevails at the time of study. The term ‘ex post
facto research’ is quite often used for descriptive research studies in social
sciences and business research. The most distinguishing feature of this method
is that the researcher has no control over the variables here. He/she has to
only report what is happening or what has happened. Majority of the ex post
facto research projects are used for descriptive studies in which the
researcher attempts to examine phenomena, such as the consumers’ preferences,
frequency of purchases, shopping, etc. Despite the inability of the researchers
to control the variables, ex post facto studies may also comprise attempts by
them to discover the causes of the selected problem. The methods of research
adopted in conducting descriptive research are survey methods of all kinds,
including correlational and comparative methods. Meanwhile in the Analytical
research, the researcher has to use the already available facts or information,
and analyse them to make a critical evaluation of the subject.
2. Applied Versus Fundamental:
Research can also be applied or fundamental in nature. An attempt
to find a solution to an immediate problem encountered by a firm, an industry,
a business organisation, or the society is known as applied research.
Researchers engaged in such researches aim at drawing certain conclusions
confronting a concrete social or business problem.
On the other hand, fundamental research mainly concerns
generalizations and formulation of a theory. In other words, “Gathering
knowledge for knowledge’s sake is termed ‘pure’ or ‘basic’ research”. Researches
relating to pure mathematics or concerning some natural phenomenon are
instances of Fundamental Research. Likewise, studies focusing on human
behaviour also fall under the category of fundamental research.
Thus, while the principal objective of applied research is to find
a solution to some pressing practical problem, the objective of basic research
is to find information with a broad base of application and add to the already
existing organized body of scientific knowledge.
3. Quantitative Versus Qualitative:
Quantitative research relates to aspects that can be quantified or
can be expressed in terms of quantity. It involves the measurement of quantity
or amount. Various available statistical and econometric methods are adopted
for analysis in such research which includes correlation, regressions and time
series analysis etc,
On the other hand, Qualitative research is concerned with
qualitative phenomena, or more specifically, the aspects related to or
involving quality or kind. For example, an important type of qualitative
research is ‘Motivation Research’, which investigates into the reasons for
certain human behaviour. The main aim of this type of research is discovering
the underlying motives and desires of human beings by using in-depth interviews.
The other techniques employed in such research are story completion tests,
sentence completion tests, word association tests, and other similar projective
methods. Qualitative research is particularly significant in the context of
behavioural sciences, which aim at discovering the underlying motives of human
behaviour. Such research helps to analyse the various factors that motivate
human beings to behave in a certain manner, besides contributing to an
understanding of what makes individuals like or dislike a particular thing.
However, it is worth noting that conducting qualitative research in practice is
considerably a difficult task. Hence, while undertaking such research, seeking
guidance from experienced expert researchers is important.
4. Conceptual Versus Empirical:
The research related to some abstract idea or theory is known as
Conceptual Research. Generally, philosophers and thinkers use it for developing
new concepts or for reinterpreting the existing ones. Empirical Research, on
the other hand, exclusively relies on the observation or experience with hardly
any regard for theory and system. Such research is data based, which often
comes up with conclusions that can be verified through experiments or
observation. Empirical research is also known as experimental type of research,
in which it is important to first collect the facts and their sources, and
actively take steps to stimulate the production of desired information. In this
type of research, the researcher first formulates a working hypothesis, and
then gathers sufficient facts to prove or disprove the stated hypothesis.
He/she formulates the experimental design, which according to him/her would
manipulate the variables, so as to obtain the desired information. This type of
research is thus characterized by the researcher’s control over the variables
under study. In simple term, empirical research is most appropriate when an
attempt is made to prove that certain variables influence the other variables
in some way. Therefore, the results obtained by using the experimental or
empirical studies are considered to be the most powerful evidences for a given
hypothesis.
5. Other Types of Research:
The remaining types of research are variations of one or more of
the afore-mentioned type of research. They vary in terms of the purpose of
research, or the time required to complete it, or may be based on some other
similar factor. On the basis of time, research may either be in the nature of
one-time or longitudinal time series research. While the research is restricted
to a single time-period in the former case, it is conducted over several
time-periods in the latter case. Depending upon the environment in which the
research is to be conducted, it can also be laboratory research or field-setting
research, or simulation research, besides being diagnostic or clinical in
nature. Under such research, in-depth approaches or case study method may be
employed to analyse the basic causal relations. These studies usually undertake
a detailed in-depth analysis of the causes of certain events of interest, and
use very small samples and sharp data collection methods. The research may also
be explanatory in nature. Formalized research studies consist of substantial
structure and specific hypotheses to be verified. As regards to historical
research, sources like historical documents, remains, etc. Are utilized to
study past events or ideas. It also includes philosophy of persons and groups
of the past or any remote point of time.
Research has also been classified into decision-oriented and
conclusion-oriented categories. The decision-oriented research is always
carried out as per the need of a decision maker and hence, the researcher has
no freedom to conduct the research according to his/her own desires. On the
other hand, in the case of Conclusion-oriented research, the researcher is free
to choose the problem, redesign the enquiry as it progresses and even change
conceptualization as he/she wishes to. Operations research is a kind of
decision-oriented research, where in scientific method is used in providing the
departments, a quantitative basis for decision-making with respect to the
activities under their purview.
Q.2. What could be the
objective of conducting research? Also discuss the qualities of a good researcher?
Ans. The importance of
knowing how to conduct research is listed below:
i.
The
knowledge of research methodology provides training to new researchers and
enables them to do research properly. It helps them to develop disciplined
thinking or a ‘bent of mind’ to objectively observe the field;
ii.
The
knowledge of doing research inculcates the ability to evaluate and utilize the
research findings with confidence;
iii.
The
knowledge of research methodology equips the researcher with the tools that help
him/her to make the observations objectively; and
iv.
The
knowledge of methodology helps the research consumers to evaluate research and
make rational decisions.
Qualities of a
Researcher:
It is important for a
researcher to possess certain qualities to conduct research. First and
foremost, he being a scientist should be firmly committed to the ‘articles of
faith’ of the scientific methods of research. This implies that a researcher
should be a social science person in the truest sense. A researcher should
possess the following qualities:
(1) First of all, the
nature of a researcher must be of the temperament that vibrates in unison with
the theme which he is searching. Hence, the seeker of knowledge must be
truthful with truthfulness of nature, which is much more important, much more
exacting than what is sometimes known as truthfulness. The truthfulness relates
to the desire for accuracy of observation and precision of statement. Ensuring
facts is the principle rule of science, which is not an easy matter. The
difficulty may arise due to untrained eye, which fails to see anything beyond
what it has the power of seeing and sometimes even less than that. This may
also be due to the lack of discipline in the method of science. An unscientific
individual often remains satisfied with the expressions like approximately,
almost, or nearly, which is never what nature is. A real research cannot see
two things which differ, however minutely, as the same.
(2) A researcher must
possess an alert mind. Nature is constantly changing and revealing itself
through various ways. A scientific researcher must be keen and watchful to
notice such changes, no matter how small or insignificant they may appear. Such
receptivity has to be cultivated slowly and patiently over time by the
researcher through practice. An individual who is ignorant or not alert and
receptive during his research will not make a good researcher. He will fail as
a good researcher if he has no keen eyes or mind to observe the unusual changes
behind the routine. Research demands a systematic immersion into the subject
matter by the researcher grasp even the slightest hint that may culminate into
significant research problems.
(3) Scientific
enquiry is pre-eminently an intellectual effort. It requires the moral quality
of courage, which reflects the courage of a steadfast endurance. The process of
conducting research is not an easy task. There are occasions when a research
scientist might feel defeated or completely lost. This is the stage when a
researcher would need immense courage and the sense of conviction. The
researcher must learn the art of enduring intellectual hardships.
In order to cultivate the afore-mentioned three qualities of a
researcher, a fourth one may be added. This is the quality of making statements
cautiously. A researcher should cultivate the habit of reserving judgment when
the required data are insufficient.
Q.3. Describe the research process
in detail? Also discuss the problems encountered by researchers in India?
Ans. Research
Process:
Research process consists of a series of steps or actions required
for effectively conducting research. The following are the steps that provide
useful procedural guidelines regarding the conduct of research:
(1)
Formulating the research problem: The research process begins with problem discovery,
and identifying the problem is the first step toward its solution. The word
problem, in general usage, suggests something has gone wrong. Actually, the
research task may be to clarify a problem, to evaluate a program, or to define
an opportunity, and problem discovery and definition will be used in this
broader context. It should be noted that the initial stage is problem
discovery, rather than definition. Thus the problem statement is often made only
in general terms.
The adage “a problem well defined is a
problem half solved” is worth remembering. This adage emphasizes that an
orderly definition of the research problem gives a sense of direction to the
investigation. Careful attention to problem definition allows the researcher to
set the proper research objectives. If the purpose of the research is clear,
the chances of collecting the necessary and relevant information-without
collecting surplus information-will be much greater.
(2) Extensive literature survey: Once the problem is formulated, the
next step is to write down a brief summary of previous research so that the researcher
may be familiar with what is already known and with what is still unknown and
untested. This helps to eliminate the replication of work and provides useful
basis for the formulation of hypothesis.
(3)
Developing hypothesis:
A hypothesis is a tentative explanation for certain behaviours, phenomena, or
events that have occurred or will occur. A hypothesis states the researcher’s
expectations concerning the relationship between the variables in the research
problem; a hypothesis is the most specific statement of the problem. The hypothesis
is formulated following the review of related literature and prior to the
execution of the study. It logically follows the review since it is based on
the implications of previous research. The related literature leads one to
expect a certain relationship.
(4) Preparing the
research design: After
the researcher has formulated the research problem, the research design must be
developed. A research design is a master plan specifying the methods and
procedures for collecting and analysing the needed information. It is a
framework of the research plan of action. The objectives of the study
determined during the early stages of the research are included in the design
to ensure that the information collected is appropriate for solving the
problem. The research investigator must also determine the sources of
information, the design technique (survey or experiment, for example), the
sampling methodology, and the schedule and cost of the research. Once an
appropriate design has been determined, the researcher moves on to the next
stage-planning the sample to be used.
(5)
Determining sample design:
Although the sampling plan is included in the research design, the actual
sampling is a separate stage of the research process. However, for convenience, the
sample planning and sample generation processes are treated together in this
section. Sampling
involves any procedure that uses a small number of items or that uses parts of
the population to make a conclusion regarding the whole population. In other
words, a sample is a subset from a larger population. If certain statistical
procedures are followed, it is unnecessary to select every item in a population
because the results of a good sample should have the same characteristics as
the population as a whole.
(6) Collecting data: Once
the research design (including the sampling plan) has been formalized, the
process of gathering information from respondents may begin. When the survey
method is utilized, some form of direct participation by the respondent is necessary
during the process. The respondent may participate by filling out a
questionnaire or by interacting with an interviewer. However the data are
collected, it is important to minimize errors in the data collection process.
(7) Execution of the
project: The researcher should see that the
project is executed in a systematic manner and in time. The basic aim in this
stage is that the data is collected in the correct form and within the
specified schedules.
(8)
Analysis of data:
(a) Editing and coding- Once the field work has been completed, the data must
be converted into a format that will answer the decision maker’s questions.
Data processing generally begins with the editing and coding of the data.
Editing involves checking the data collection forms for omissions, legibility,
and consistency in classification. The editing process corrects problems like
interviewer errors (e.g., an answer recorded on the wrong portion of a
questionnaire) before the data are transferred to a computer or readied for
tabulation.
Before data can be tabulated,
meaningful categories and character symbols must be established for groups of
responses. The rules for interpreting categorizing, recording and transferring
the data to the data storage media are called codes. This coding process
facilitates computer or hand tabulation. Of course, if computer analysis is to
be utilized the data are entered into the computer and verified.
Computer-assisted (on-line) interviewing illustrates the impact of
technological changes on the research process. Telephone interviewers are
seated at a computer terminal. Survey questions are printed out on the screen.
The interviewer asks the questions and then types the respondents’ answers on
the keyboard. Thus answers are collected and processed into the computer at the
same time, eliminating intermediate steps where errors could creep in.
(b) Analysis- Analysis
is the application of logic to understand and interpret the data that have been
collected about a subject. In simple description, analysis may involve
determining consistent patterns and summarizing the appropriate details
revealed in the investigation. The appropriate analytical technique for data
analysis will be determined by management’s information requirements, the
characteristics of the research design, and the nature of the data collected.
Statistical analysis may range from portraying a simple frequency distribution
to very complex multivariate analysis such as multiple regressions.
(9) Hypothesis testing:
After analysing the data, the researcher is in a position to test
the hypothesis, if any, he had formulated earlier. It will result in either
accepting the hypothesis or in rejecting it.
(10) Generalization and
interpretation: Data interpretation is done
with the intention of seeking explanation for the research results on the basis
of existing theories and doors are thrown open for newer explanations and
possibilities for further research.
(11)
Preparation of the report or presentation of the results: The research report should communicate
the research findings effectively. All too often the report is a complicated
statement of the study’s technical aspects and sophisticated research methods.
Often, management is not interested in detailed reporting of the research
design and statistical findings but wishes only a summary of the findings. It
cannot be overemphasized that if the findings of the research remain unread on
the manager’s desk, the study is useless. The manager’s information needs will
determine how much detail is provided in the written report. The written report
serves another purpose: it is a historical document that will be a source of
record for later usage, such as repeating the survey or providing a basis for
building upon the survey findings. In other words, it involves the formal
write-up of conclusions.
Problems
Encountered by Researchers in India
Researchers in India,
particularly those engaged in empirical research, are facing several problems.
Some of the important problems are as follows:
1. The lack of a
scientific training in the methodology of research is a great impediment for
researchers in our country. There is paucity of competent researchers. Many
researchers take a leap in the dark without knowing research methods. Most of
the work, which goes in the name of research, is not methodologically sound.
Research, to many researchers and even to their guides, is mostly a scissor and
paste job without any insight shed on the collated materials. The consequence
is obvious, viz., the research results, quite often, do not reflect the reality
or realities. Thus, a systematic study of research methodology is an urgent
necessity. Before undertaking research projects, researchers should be well
equipped with all the methodological aspects. As such, efforts should be made
to provide short-duration intensive courses for meeting this requirement.
2. There is
insufficient interaction between the university research departments on one
side and business establishments, government departments and research
institutions on the other side. A great deal of primary data of
non-confidential nature remains untouched/untreated by the researchers for want
of proper contacts. Efforts should be made to develop satisfactory liaison
among all concerned for better and realistic researches.
3. Most of the
business units in our country do not have the confidence that the material
supplied by them to researchers will not be misused and as such they are often
reluctant in supplying the needed information to researchers. The concept of
secrecy seems to be sacrosanct to business organisations in the country so much
so that it proves an impermeable barrier to researchers. Thus, there is the
need for generating the confidence that the information data obtained from a
business unit will not be misused.
4. Research
studies overlapping one another are undertaken quite often for want of adequate
information. This results in duplication and flutters away resources. This
problem can be solved by proper compilation and revision, at regular intervals,
of a list of subjects on which and the places where the research is going on.
Due attention should be given toward identification of research problems in
various disciplines of applied science which are of immediate concern to the
industries.
5. There does
not exist a code of conduct for researchers and inter-university and
inter-departmental rivalries are also quite common. Hence, there is a need for
developing a code of conduct for researchers which, if adhered sincerely, can
win over this problem.
6. Many
researchers in our country also face the difficulty of adequate and timely secretarial
assistance, including computerial assistance. This causes unnecessary delays in
the completion of research studies. All possible efforts are made in this
direction so that efficient secretarial assistance is made available to
researchers and that too well in time.
7. Library
management and functioning is not satisfactory at many places and much of the
time and energy of researchers are spent in tracing out the books, journals,
reports, etc., rather than in tracing out relevant material from them.
8. There is also
the problem that many of our libraries are not able to get copies of old and
new acts/rules, reports and other government publications in time. This problem
is felt more in libraries which are away in places from Delhi and/or the state
capitals. Thus, efforts should be made for the regular and speedy supply of all
governmental publications to reach our libraries.
9. There is also
the difficulty of timely availability of published data from various government
and other agencies doing this job in our country. Researcher also faces the
problem on account of the fact that the published data vary quite significantly
because of differences in coverage by the concerning agencies.
10.
There may, at times, take place the problem of conceptualization and also
problems relating to the process of data collection and related things.
Q.4. Discuss the
managerial value of business research?
Ans. Managerial Value of Business
Research
The prime managerial value of
business research is that it reduces uncertainty by providing information that
improves the decision-making process. The decision making process associated
with the development and implementation of a strategy involves three interrelated
stages.
1. Identifying problems or
opportunities
2. Selecting and implementing a
course of action
3. Evaluating the course of
action
Business research, by supplying
managers with pertinent information, may play an important role by reducing
managerial uncertainty in each of these stages.
Identifying Problems or
Opportunities
Before any strategy can be
developed, an organization must determine where it wants to go and how it will
get there. Business research can help managers plan strategies by determining
the nature of situations by identifying the existence of problems or
opportunities present in the organization.
Business
research may be used as a diagnostic activity to provide information about what
is occurring within an organization or in its environment. The mere description
of some social or economic activity may familiarize managers with
organizational and environmental occurrences and help them understand a
situation. For example, the description of the dividend history of stocks in an
industry may point to an attractive investment opportunity.
Information
supplied by business research may also indicate problems. For example, employee
interviews undertaken to delineate the dimensions of an airline reservation
clerk’s job may reveal that reservation clerks emphasize competence in issuing
tickets over courtesy and friendliness in customer contact. Once business
research indicates a problem, managers may feel that the alternatives are clear
enough to make a decision based on experience or intuition, or they may decide
that more business research is needed to generate additional information for a
better understanding of the situation.
Whether an
organization recognizes a problem or gains insight into a potential
opportunity, an important aspect of business research is its provision of
information that identifies or clarifies alternative courses of action.
Selecting and
implementing a course of action
After the
alternative courses of action have been identified, business research is often
conducted to obtain specific information that will aid in evaluating the
alternatives and in selecting the best course of action. In such a case,
business research can be designed to supply the exact information necessary to
determine which course of action is best of the organization.
Opportunities
may be evaluated through the use of various performance criteria. For example,
estimates of market potential allow managers to evaluate the revenue that will
be generated by each of the possible opportunities. A good forecast supplied by
business researchers is among the most useful pieces of planning information a
manager can have. Of course, complete accuracy in forecasting the future is not
possible because change is constantly occurring in the business environment.
Nevertheless, objective information generated by business research to forecast
environmental occurrences may be the foundation for selecting a particular
course of action.
Clearly, the
best plan is likely to result in failure if it is not properly implemented.
Business research may be conducted with the people who will be affected by a
pending decision to indicate the specific tactics required to implement that
course of action.
Evaluating
course of action
After a course
of action has been implemented, business research may serve as a tool to inform
managers whether planned activities were properly executed and whether they
accomplished what they were expected to accomplish. In other words, business
research may be conducted to provide feedback for evaluation and control of
strategies and tactics.
Evaluation
research is the formal, objective measurement and appraisal of the extent to
which a given action, activity, or program has achieved its objectives. In
addition to measuring the extent to which completed programs achieved their
objectives or to which continuing programs are presently performing as
projected, evaluation research may provide information about the major factor
influencing the observed performance levels.
When analysis of performance
indicated that all is not going as planned, business research may be required
to explain why something “went wrong.” Detailed information about specific
mistakes or failures is frequently sought. If a general problem area is
identified, breaking down industry sales volume and a firm’s sales volume into
different geographic areas may provide an explanation of specific problems, and
exploring these problems in greater depth may indicate which managerial
judgments were erroneous.
Q.5. Define research
design? Explain the characteristics and types of research design?
Ans. A research design is a framework
or blueprint for conducting the research project. It gives details, of the
procedures necessary for obtaining the information needed to structure or solve
research problems. Although a broad approach to the problem has already been
developed, the research design specifies the details-the nuts and bolts of
implementing that approach. A research design lays the foundation for
conducting the project. A good research design will ensure that the business
research project is conducted effectively. The most
important step after defining the research problem is preparing the design of
the research project, which is popularly known as the ‘research design’. A
research design helps to decide upon issues like what, when, where, how much,
by what means etc. with regard to an enquiry or a research study. A research
design is the arrangement of conditions for collection and analysis of data in
a manner that aims to combine relevance to the research purpose with economy in
procedure. Thus, research design provides an outline of what the researcher is
going to do in terms of framing the hypothesis, its operational implications
and the final data analysis. Specifically, the research design highlights
decisions which include:
1. The nature of the
study
2.
The
purpose of the study
3.
The
location where the study would be conducted
4.
The
nature of data required
5.
From
where the required data can be collected
6.
What
time period the study would cover
7.
The
type of sample design that would be used
8.
The
techniques of data collection that would be used
9.
The
methods of data analysis that would be adopted and
10.
The
manner in which the report would be prepared
In view of the stated
research design decisions, the overall research design may be divided into the
following:
a.
The
sampling design that deals with the method of selecting items to be observed
for the selected study;
b.
The
observational design that relates to the conditions under which the
observations are to be made;
c.
The
statistical design that concerns with the question of how many items are to be
observed, and how the information and data gathered are to be analysed; and
d.
The
operational design that deals with the techniques by which the procedures
specified in the sampling, statistical and observational designs can be carried
out.
Features of Research
Design:
The important
features of Research Design may be outlined as follows:
i.
It
constitutes a plan that identifies the types and sources of information
required for the research problem;
ii.
It
constitutes a strategy that specifies the methods of data collection and
analysis which would be adopted; and
iii.
It
also specifies the time period of research and monetary budget involved in
conducting the study, which comprise the two major constraints of undertaking
any research
Concepts Relating To
Research Design:
Some of the important
concepts relating to Research Design are discussed below:
1. Dependent and
Independent Variables:
A magnitude that
varies is known as a variable. The concept may assume different quantitative
values like height, weight, income etc. Qualitative variables are not
quantifiable in the strictest sense of the term. However, the qualitative
phenomena may also be quantified in terms of the presence or absence of the
attribute(s) considered. The phenomena that assume different values
quantitatively even in decimal points are known as ‘continuous variables’. But
all variables need not be continuous. Values that can be expressed only in
integer values are called ‘non-continuous variables’. In statistical terms,
they are also known as ‘discrete variables’. For example, age is a continuous
variable, whereas the number of children is a non-continuous variable. When
changes in one variable depend upon the changes in other variable or variables,
it is known as a dependent or endogenous variable, and the variables that cause
the changes in the dependent variable are known as the independent or
explanatory or exogenous variables. For example, if demand depends upon price,
then demand is a dependent variable, while price is the independent variable.
And, if more variables determine demand, like income and price of the
substitute commodity, then demand also depends upon them in addition to the
price of original commodity. In other words, demand is a dependent variable
which is determined by the independent variables like price of the original commodity,
income and price of substitutes.
2. Extraneous
Variables:
The independent
variables which are not directly related to the purpose of the study but affect
the dependent variables, are known as extraneous variables. For instance,
assume that a researcher wants to test the hypothesis that there is a
relationship between children’s school performance and their self-confidence,
in which case the latter is an independent variable and the former, a dependent
variable. In this context, intelligence may also influence the school
performance. However, since it is not directly related to the purpose of the
study undertaken by the researcher, it would be known as an extraneous
variable. The influence caused by the extraneous variable(s) on the dependent
variable is technically called the ‘experimental error’. Therefore, a research
study should always be framed in such a manner that the influence of extraneous
variables on the dependent variable/s is completely controlled, and the
influence of independent variable/s is clearly evident.
3. Control:
One of the most
important features of a good research design is to minimize the effect of
extraneous variable(s). Technically, the term ‘control’ is used when a
researcher designs the study in such a manner that it minimizes the effects of
extraneous variables. The term ‘control’ is used in experimental research to
reflect the restrain in experimental conditions.
4. Confounded
Relationship:
The relationship
between the dependent and independent variables is said to be confounded by an
extraneous variable, when the dependent variable is not free from its effects.
5. Research
Hypothesis:
When a prediction or
a hypothesized relationship is tested by adopting scientific methods, it is
known as research hypothesis. The research hypothesis is a predictive statement
which relates to a dependent variable and an independent variable. Generally, a
research hypothesis must consist of at least one dependent variable and one
independent variable. Whereas, the relationships that are assumed but not to be
tested are predictive statements that are not to be objectively verified, thus
are not classified as research hypotheses.
6. Experimental and
Non-experimental Hypothesis Testing Research:
When the objective of
a research is to test a research hypothesis, it is known as hypothesis-testing
research. Such research may be in the nature of experimental design or
non-experimental design. The research in which the independent variable is
manipulated is known as ‘experimental hypothesis-testing research’, whereas the
research in which the independent variable is not manipulated is termed as
‘non-experimental hypothesis-testing research’. For example, assume that a
researcher wants to examine whether family income influences the school
attendance of a group of students, by calculating the coefficient of
correlation between the two variables. Such an example is known as a
non-experimental hypothesis-testing research, because the independent variable
- family income is not manipulated here. Again assume that the researcher
randomly selects 150 students from a group of students who pay their school
fees regularly and then classifies them into two sub-groups by randomly
including 75 in Group A, whose parents have regular earning, and 75 in Group B,
whose parents do not have regular earning. Assume that at the end of the study,
the researcher conducts a test on each group in order to examine the effects of
regular earnings of the parents on the school attendance of the student. Such a
study is an example of experimental hypothesis-testing research, because in
this particular study the independent variable regular earnings of the parents
have been manipulated.
7. Experimental and
Control Groups:
When a group is
exposed to usual conditions in an experimental hypothesis-testing research, it
is known as ‘control group’. On the other hand, when the group is exposed to
certain new or special condition, it is known as an ‘experimental group’. In
the afore-mentioned example, Group A can be called as control group and Group B
as experimental group. If both the groups, A and B are exposed to some special
feature, then both the groups may be called as ‘experimental groups’. A
research design may include only the experimental group or both the
experimental and control groups together.
8. Treatments:
Treatments refer to
the different conditions to which the experimental and control groups are
subject to. In the example considered, the two treatments are the parents with
regular earnings and those with no regular earnings. Likewise, if a research study
attempts to examine through an experiment the comparative effect of three
different types of fertilizers on the yield of rice crop, then the three types
of fertilizers would be treated as the three treatments.
9. Experiment:
Experiment refers to
the process of verifying the truth of a statistical hypothesis relating to a
given research problem. For instance, an experiment may be conducted to examine
the yield of a certain new variety of rice crop developed. Further, Experiments
may be categorized into two types, namely, ‘absolute experiment’ and
‘comparative experiment’. If a researcher wishes to determine the impact of a
chemical fertilizer on the yield of a particular variety of rice crop, then it
is known as absolute experiment. Meanwhile, if the researcher wishes to
determine the impact of chemical fertilizer as compared to the impact of
bio-fertilizer, then the experiment is known as a comparative experiment.
10. Experimental
Unit(s):
Experimental units
refer to the pre-determined plots, characteristics or the blocks, to which
different treatments are applied. It is worth mentioning here that such
experimental units must be selected with great caution.
Types of Research
Design:
There are different
types of research designs. They may be broadly categorized as:
(1) Exploratory
Research Design;
(2) Descriptive and
Diagnostic Research Design; and
(3)
Hypothesis-Testing Research Design.
1. Exploratory
Research Design:
The Exploratory
Research Design is known as formulative research design. When a researcher has a limited
amount of experience with or knowledge about a research issue, exploratory
research is a useful preliminary step that helps ensure that a more rigorous,
more conclusive future study will not begin with an inadequate understanding of
the nature of the management problem. The findings discovered through
exploratory research would lead the researcher to emphasize learning more about
the particulars of the findings in subsequent conclusive studies. Conclusive
research answers questions of fact necessary to determine course of action.
This is never the purpose of exploratory research. The
main objective of using such a research design is to formulate a research
problem for an in-depth or more precise investigation, or for developing a
working hypothesis from an operational aspect. The major purpose of such
studies is the discovery of ideas and insights. Therefore, such a research
design suitable for such a study should be flexible enough to provide
opportunity for considering different dimensions of the problem under study.
The in-built flexibility in research design is required as the initial research
problem would be transformed into a more precise one in the exploratory study,
which in turn may necessitate changes in the research procedure for collecting
relevant data. Usually, the following three methods are considered in the
context of a research design for such studies. They are (a) a survey of related
literature; (b) experience survey; and (c) analysis of ‘insight-stimulating’
instances.
Why conduct exploratory research?
The purpose of exploratory
research is intertwined with the need for a clear and precise statement of the
recognized problem. Three interrelated forms of exploratory research exist: (1)
diagnosing a situation, (2) screening alternatives, and (3) discovering new
ideas. Diagnosing a Situation
Much has already
been said about the need for situation analysis to clarity a problem’s nature.
Exploratory research helps diagnose the dimensions of problems so that
successive research projects will be on target. It helps set priorities for
research. In some cases exploratory research provides an orientation for
management by gathering information on a topic with which management has little
experience. Although a research project has not yet been planned, information about
an issue is needed before the appropriate action can be developed.
Personnel
research managers often conduct exploratory research as a diagnostic tool to
point out issues of employee concern’ or to generate possible explanations for
motivational patterns. For example, preliminary interviews with employees may
be utilized to learn current “hot” issues, as well as concerns about
bread-and-butter issues such as wages, working conditions, career
opportunities, and the like.
Screening
Alternative
When several
opportunities arise but the budget precludes investigating all possible
options, exploratory research may be used to determine the best alternatives.
Many crystallizes good investments were not made because a company chose to
invest in something better. Some new organizational structures are found t6 be
unworkable. In an exploratory look at market data (size, number, and so on), a
product alternative, may informally not be feasible because the market is too
small. Although this aspect of exploratory research is not a substitute for
conclusive research, certain evaluative information can be acquired in
exploratory studies.
The need for
concept testing is a frequent reason for conducting exploratory research.
Concept testing is a general term or many different research procedures, all of
which have the same purpose. It refers to those research procedures that test
some sort of stimulus as a proxy for a new or revised program, product, or
service. Typically, test subjects are presented with an idea and asked if they
liked it, and so-on. Concept testing is a means of evaluating ideas by
providing a “feel” for the merits and idea prior to the commitment of research
and development, manufacturing, or other company resources. Researchers look
for trouble in business signals in evaluations of concepts in order to avoid
future problems in business research.
Concept testing
may portray the functions, uses, and possible situations for a proposed
product. For example, Del Monte conducted a concept test to determine if
consumers would accept the idea of shelf-stable yogurt. The plan was scrapped
after survey showed that buyers refused to accept the idea that yogurt could be
kept unrefrigerated. Early research indicated that such a concept was viewed as
desirable and unique, but the cost of achieving believability finally judged to
be high.
In other cases,
when subjects have expressed reservations about certain aspects of the idea but
the general concept has not been evaluated negatively, researchers know that
the concept needs to be refined. The intangibles influencing brand image,
product appearance, name and price– as well as a description of the product
simulate reality. Thus, prior to actual product development, the idea
expressing the nature of the brand is conveyed to the test subjects.
Discovering New
Ideas
Exploratory
research is often used to generate new ideas. Perhaps factory workers have
suggestions for increasing production, or improving safety. Consumers may
suggest hew product ideas, or unthought-of problems might be identified.
For
example, an automobile manufacturer might have drivers design their dream
influencing cars on video screens using computerized design software adapted
from programs used by automotive designers. This exploratory research generates
ideas that would never have occurred to the firm’s design staff.
A
manager may choose from four general categories of exploratory research
methods: (1) experience surveys, (2) secondary data analysis, (3) case studies,
and (4) pilot studies. Each category provides various alternative ways of
gathering information.
2. Descriptive and
Diagnostic Research Design:
A Descriptive
Research Design is concerned with describing the characteristics of a
particular individual or a group. Meanwhile, a diagnostic research design
determines the frequency with which a variable occurs or its relationship with
another variable. In other words, the study analyzing whether a certain
variable is associated with another comprises a diagnostic research study. On
the other hand, a study that is concerned with specific predictions or with the
narration of facts and characteristics related to an individual, group or
situation, are instances of descriptive research studies. Generally, most of
the social research design falls under this category. As a research design,
both the descriptive and diagnostic studies share common requirements, hence
they are grouped together. However, the procedure to be used and the research
design need to plan carefully. The research design must also make appropriate
provision for protection against bias and thus maximize reliability, with due
regard to the completion of the research study in an economical manner. The
research design in such studies should be rigid and not flexible. Besides, it
must also focus attention on the following:
a) Formulation of the
objectives of the study,
b) Proper designing
of the methods of data collection,
c) Sample selection,
d) Data collection,
e) Processing and
analysis of the collected data, and
f) Reporting the
findings.
Six W’s
1. Who:
Who should be considered a patron of a particular departmental store?
2.
What: What information
should be obtained from the respondents?
3.
When: When should the information be obtained from the respondents?
4.
Where: Where should the respondents is contacted to obtain the required
information?
5.
Why: Why are we obtaining information from the respondents?
6.
Way: In what are we going to
obtain information from the respondents?
As the name implies, the major
objective of descriptive research is to describe something usually market
characteristics or functions. Descriptive research is conducted for the
following reasons:
1. To describe the
characteristics of relevant groups, such as consumers, salespeople, organizations,
or market areas.
2. To estimate
the percentage of units in a specified population exhibiting a certain behavior;
for example, the percentage of heavy users of prestigious department stores who
also patronize discount department stores.
3. To determine
the perceptions of product characteristics. For example, how do households’
perceive the various department stores in terms of salient factors of the
choice criteria?
4. To determine
the degree to which marketing variables are associated. For example, to what
extent is shopping at department stores related to eating out?
5. To make
specific predictions.
Descriptive
research assumes that the researcher has much prior knowledge about the problem
situation. In fact, a major difference between exploratory and descriptive
research is that descriptive research is characterized by the prior formulation
of specific hypotheses. Thus, the information needed is clearly defined. As a
result, descriptive research is pre-planned and structured.
It is typically
based on large representative samples. A formal research design specifies the
methods for selecting the sources of information and for collecting data from
those sources. A descriptive design requires a clear specification of the who,
what, when, where, why, and way (the six Ws) of the research. These, and other
similar questions, should be asked until the information to be obtained has
been clearly defined.
In summary,
descriptive research, in contrast to exploratory research, is marked by a clear
statement of the problem, specific hypotheses, and detailed information needs.
The survey conducted in the department store patronage project, which involved
personal interviews, is an example of descriptive research. Other examples of
descriptive studies are:
• Market
studies, which describe the size of the market, buying power of the consumer’s
availability of distributors, and consumer profiles.
• Market share
studies, which determine the proportion of total sales received by a company
and its competitors.
3. Hypothesis-Testing
Research Design:
Hypothesis-Testing Research Designs are those in which the
researcher tests the hypothesis of causal relationship between two or more
variables. These studies require procedures that would not only decrease bias
and enhance reliability, but also facilitate deriving inferences about the
causality. Generally, experiments satisfy such requirements. Hence, when
research design is discussed in such studies, it often refers to the design of
experiments.
Characteristics of a Good Research Design:
A good research design often possesses the qualities of being flexible, suitable, efficient, and
economical and so on. Generally, a research design which minimizes bias
and maximizes the reliability of the data collected and analysed is considered
a good design. A research design which does not allow even the smallest experimental error is said
to be the best design for investigation. Further, a research design that yields maximum information and
provides an opportunity of viewing the
various dimensions of a research problem is considered to be the most
appropriate and efficient design. Thus, the question of a good design relates
to the purpose or objective and nature of the research problem studied. While a
research design may be good, it may not be equally suitable to all studies. In
other words, it may be lacking in one aspect or the other in the case of some
other research problems. Therefore, no single research design can be applied to
all types of research problems.
A research design suitable for a specific research problem would
usually involve the following considerations:
i. The methods of gathering the information;
ii. The skills and availability of the researcher and his/her
staff, if any;
iii. The objectives of the research problem being studied;
iv. The nature of the research problem being studied; and
v. The available
monetary support and duration of time for the research work.
Q.6. Define the concept
of sampling design. Describe the steps involved in sampling design.
Ans. Sample Survey:
A sample design is a definite plan for obtaining a sample from a
given population. Sample constitutes a certain portion of the population or
universe. Sampling design refers to the technique or the procedure the
researcher adopts for selecting items for the sample from the population or
universe. A sample design helps to decide the number of items to be included in
the sample, i.e., the size of the sample. The sample design should be
determined prior to data collection. There are different kinds of sample
designs which a researcher can choose. Some of them are relatively more precise
and easier to adopt than the others. A researcher should prepare or select a
sample design, which must be reliable and suitable for the research study
proposed to be undertaken.
Steps in Sampling Design:
A researcher should take into consideration the following aspects
while developing a sample design:
1) Type of Universe:
The first step involved in developing sample design is to clearly
define the number of cases, technically known as the universe. A universe may
be finite or infinite. In a finite universe the number of items is certain,
whereas in the case of an infinite universe the number of items is infinite
(i.e., there is no idea about the total number of items). For example, while
the population of a city or the number of workers in a factory comprise finite
universes, the number of stars in the sky, or throwing of a dice represent
infinite universe.
2) Sampling Unit:
Prior to selecting a sample, decision has to be made about the
sampling unit. A sampling unit may be a geographical area like a state,
district, village, etc., or a social unit like a family, religious community,
school, etc., or it may also be an individual. At times, the researcher would have
to choose one or more of such units for his/her study.
3) Source List:
Source list is also known as the ‘sampling frame’, from which the
sample is to be selected. The source list consists of names of all the items of
a universe. The researcher has to prepare a source list when it is not
available. The source list must be reliable, comprehensive, correct, and
appropriate. It is important that the source list should be as representative
of the population as possible.
4) Size of Sample:
Size of the sample refers to the number of items to be chosen from
the universe to form a sample. For a researcher, this constitutes a major
problem. The size of sample must be optimum. An optimum sample may be defined
as the one that satisfies the requirements of representativeness, flexibility,
efficiency, and reliability. While deciding the size of sample, a researcher
should determine the desired precision and the acceptable confidence level for
the estimate. The size of the population variance should be considered, because
in the case of a larger variance generally a larger sample is required. The
size of the population should be considered, as it also limits the sample size.
The parameters of interest in a research study should also be considered, while
deciding the sample size. Besides, costs or budgetary constraint also plays a
crucial role in deciding the sample size.
5) Budgetary Constraint:
From the practical point of view, cost considerations exercise a
major influence on the decisions related to not only the sample size, but also
on the type of sample selected. Thus, budgetary constraint could also lead to
the adoption of a non-probability sample design.
6) Sampling Procedure:
Finally, the researcher should decide the type of sample or the
technique to be adopted for selecting the items for a sample. This technique or
procedure itself may represent the sample design. There are different sample
designs from which a researcher should select one for his/her study. It is
clear that the researcher should select that design which, for a given sample
size and budget constraint, involves a smaller error.
Characteristics of a Good Sample Design:
The following are the characteristic features of a good sample
design:
a. The sample design should yield a truly representative sample;
b. The sample design should be such that it results in small
sampling error;
c. The sample design should be viable in the context of budgetary
constraints of the research study;
d. The sample design should be such that the systematic bias can
be controlled; and
e. The sample must be such that the results of the sample study
would be applicable, in general, to the universe at a reasonable level of
confidence.
Different Types of Sample Designs:
Sample designs may be classified into different categories based
on two factors, namely, the representation basis and the element selection
technique. Under the representation basis, the sample may be classified as:
I. Non-probability sampling
II. Probability sampling
While probability sampling is based on random selection, the
non-probability sampling is based on ‘non-random’ selection of samples.
I. Non-Probability Sampling:
Non-probability sampling is the sampling procedure that does not
afford any basis for estimating the probability that each item in the
population would have an equal chance of being included in the sample.
Non-probability sampling is also known as deliberate sampling, judgment
sampling and purposive sampling. Under this type of sampling, the items for the
sample are deliberately chosen by the researcher; and his/her choice concerning
the choice of items remains supreme. In other words, under non-probability
sampling the researchers select a particular unit of the universe for forming a
sample on the basis that the small number that is thus selected out of a huge
one would be typical or representative of the whole population. For example, to
study the economic conditions of people living in a state, a few towns or
village may be purposively selected for an intensive study based on the principle
that they are representative of the entire state. In such a case, the judgment
of the researcher of the study assumes prime importance in this sampling
design.
Quota Sampling:
Quota sampling is also an example of non-probability sampling.
Under this sampling, the researchers simply assume quotas to be filled from
different strata, with certain restrictions imposed on how they should be
selected. This type of sampling is very convenient and is relatively less
expensive. However, the samples selected using this method certainly do not
satisfy the characteristics of random samples. They are essentially judgment
samples and inferences drawn based on that, would not be amenable to
statistical treatment in a formal way.
II. Probability Sampling:
Probability sampling is also known as ‘choice sampling’ or ‘random
sampling’. Under this sampling design, every item of the universe has an equal
chance of being included in the sample. In a way, it is a lottery method under
which individual units are selected from the whole group, not deliberately, but
by using some mechanical process. Therefore, only chance would determine
whether an item or the other would be included in the sample or not. The
results obtained from probability or random sampling would be assured in terms
of probability. That is, the researcher can measure the errors of estimation or
the significance of results obtained from the random sample. This is the
superiority of random sampling design over the deliberate sampling design.
Random sampling satisfies the law of statistical regularity, according to which
if on an average the sample chosen is random, then it would have the same
composition and characteristics of the universe. This is the reason why the
random sampling method is considered the best technique of choosing a
representative sample.
The following are the implications of the random sampling:
i. It provides each element in the population an equal probable
chance of being chosen in the sample, with all choices being independent of one
another and
ii. It offers each possible sample combination an equal probable
opportunity of being selected.
Method of Selecting a Random Sample:
The process of selecting a random sample involves writing the name
of each element of a finite population on a slip of paper and putting them into
a box or a bag. Then they have to be thoroughly mixed and then the required
number of slips for the sample can be picked one after the other without
replacement. While doing this, it has to be ensured that in successive drawings
each of the remaining elements of the population has an equal chance of being
chosen. This method results in the same probability for each possible sample.
Q.7. Distinguish
between probability and non-probability sampling?
Ans. Under restricted sampling technique, the probability sampling may
result in complex random sampling designs. Such designs are known as mixed
sampling designs. Many of such designs may represent a combination of
non-probability and probability sampling procedures in choosing a sample.
Some of the prominent complex random sampling designs are as
follows:
(i) Systematic Sampling:
In some cases, the best way of sampling is to select every first
item on a list. Sampling of this kind is called as systematic sampling. An element
of randomness is introduced in this type of sampling by using random numbers to
select the unit with which to start. For example, if a 10 per cent sample is
required out of 100 items, the first item would be selected randomly from the
first low of item and thereafter every 10th item. In this kind of sampling,
only the first unit is selected randomly, while rest of the units of the sample
is chosen at fixed intervals.
(ii) Stratified Sampling:
When a population from which a sample is to be selected does not
comprise a homogeneous group, stratified sampling technique is generally
employed for obtaining a representative sample. Under stratified sampling, the
population is divided into many sub-populations in such a manner that they are
individually more homogeneous than the rest of the total population. Then,
items are selected from each stratum to form a sample. As each stratum is more
homogeneous than the remaining total population, the researcher is able to
obtain a more precise estimate for each stratum and by estimating each of the
component parts more accurately; he/she is able to obtain a better estimate of
the whole. In sum, stratified sampling method yields more reliable and detailed
information.
(iii) Cluster Sampling:
When the total area of research interest is large, a convenient
way in which a sample can be selected is to divide the area into a number of
smaller non-overlapping areas and then randomly selecting a number of such
smaller areas. In the process, the ultimate sample would consist of all the
units in these small areas or clusters. Thus in cluster sampling, the total
population is sub-divided into numerous relatively smaller subdivisions, which
in themselves constitute clusters of still smaller units. And then, some of
such clusters are randomly chosen for inclusion in the overall sample.
(iv) Area Sampling:
When clusters are in the form of some geographic subdivisions,
then cluster sampling is termed as area sampling. That is, when the primary
sampling unit represents a cluster of units based on geographic area, the
cluster designs are distinguished as area sampling. The merits and demerits of
cluster sampling are equally applicable to area sampling.
(v) Multi-Stage Sampling:
A further development of the principle of cluster sampling is
multi-stage sampling. When the researcher desires to investigate the working
efficiency of nationalized banks in India and a sample of few banks is required
for this purpose, the first stage would be to select large primary sampling
unit like the states in the country. Next, certain districts may be selected
and all banks interviewed in the chosen districts. This represents a two-stage
sampling design, with the ultimate sampling units being clusters of districts.
On the other hand, if instead of taking census of all banks within
the selected districts, the researcher chooses certain towns and interviews all
banks in it, this would represent three-stage sampling design. Again, if
instead of taking a census of all banks within the selected towns, the researcher
randomly selects sample banks from each selected town, then it represents a
case of using a four-stage sampling plan. Thus, if the researcher selects
randomly at all stages, then it is called as multi-stage random sampling
design.
(vi) Sampling with Probability Proportional To Size:
When the case of cluster sampling units does not have exactly or
approximately the same number of elements, it is better for the researcher to
adopt a random selection process, where the probability of inclusion of each
cluster in the sample tends to be proportional to the size of the cluster. For
this, the number of elements in each cluster has to be listed, irrespective of
the method used for ordering it. Then the researcher should systematically pick
the required number of elements from the cumulative totals. The actual numbers
thus chosen would not however reflect the individual elements, but would
indicate as to which cluster and how many from them are to be chosen by using
simple random sampling or systematic sampling. The outcome of such sampling is
equivalent to that of simple random sample. The method is also less cumbersome
and is also relatively less expensive.
Thus, a researcher has to pass through various stages of
conducting research once the problem of interest has been selected. Research
methodology familiarizes a researcher with the complex scientific methods of
conducting research, which yield reliable results that are useful to
policy-makers, government, industries etc. in decision-making.
UNIT II
Q.8. Differentiate
between primary and secondary data?
Ans.
The most
important aspect of research is data collection. With the help of data, the information
can be presented in such a manner so that the same may be useful for decision making
by the managers. Data are nothing but the information. The data are name after
the source. While collecting data, reliability and accuracy should be maintained.
In the whole process of gathering information, the source of data should be
taken care of very seriously. Data can be obtained from primary or secondary
sources. Primary data refer to information obtained first hand by the
researcher on the variables of interest for the specific purpose of the study.
Secondary data refer to information gathered from sources already existing. Primary
data refers to the data collected for the first time, whereas secondary data
refers to the data that have already been collected and used earlier by
somebody or some agency. Both the sources of information have their merits and
demerits. The selection of a particular source depends upon the (a) purpose and
scope of enquiry, (b) availability of time, (c) availability of finance, (d)
accuracy required, (e) statistical tools to be used, (f) sources of information
(data), and (g) method of data collection.
Some
examples of sources of primary data are individuals, focus groups, panels of
respondents specifically set up by the researcher and from whom opinions may be
sought on specific issues from time to time, or some unobtrusive sources such as
a trash can. The internet could also serve as a primary data source when
questionnaires are administered over it. Data can also be
obtained from secondary sources, as for example, company records or achieves,
government publications, industry analyses offered by the media, web sites, the
internet, and so on.
Basis
of difference
|
Primary
data
|
Secondary
data
|
Originality
|
Primary data are collected originally
|
Secondary dada are already available and thus these are not original
|
Collection
|
By the investigator himself
|
By some other person
|
Time
|
More time consuming
|
Less time consuming
|
Precaution
|
Needs more precaution at the time of collection but less at the time of
its use
|
Needs less precaution at the time of collection but more at the time of
its use
|
Conversion
|
A primary data after a use is converted into a secondary data
|
It can never be converted into a primary data
|
Statistical process
|
Not done
|
Done
|
Cost
|
Expensive
|
Cheaper
|
Efforts
|
More efforts required
|
Less efforts required
|
Accuracy
|
More accurate
|
Less accurate
|
Training personnel required
|
Experts/trained required
|
Less trained personnel
|
Q.9.
Explain the different methods of collecting primary data with their relative
merits and demerits?
Ans. METHODS
OF COLLECTING PRIMARY DATA
Primary data may be obtained by applying any of the following
methods:
1. Direct
Personal Interviews.
2. Indirect
Oral Interviews.
3.
Information from Correspondents.
4. Mailed
Questionnaire Methods.
5. Schedule
Sent Through Enumerators.
1. Direct Personal Interviews:
A face to face contact is made with the informants (persons from
whom the information is to be obtained) under this method of collecting data.
The interviewer asks them questions pertaining to the survey and collects the
desired information. Thus, if a person wants to collect data about the working
conditions of the workers of the Tata Iron and Steel Company, Jamshedpur, he
would go to the factory, contact the workers and obtain the desired
information. The information collected in this manner is first hand and also
original in character. There are many merits and demerits of this method, which
are discussed as under:
Merits:
1. Most often respondents are happy to pass on the information
required from them when contacted personally and thus response is encouraging.
2. The information collected through this method is normally more
accurate because interviewer can clear doubts of the informants about certain
questions and thus obtain correct information. In case the interviewer
apprehends that the informant is not giving accurate information, he may
cross-examine him and thereby try to obtain the information.
3. This method also provides the scope for getting supplementary
information from the informant, because while interviewing it is possible to
ask some supplementary questions which may be of greater use later.
4. There might be some questions which the interviewer would find
difficult to ask directly, but with some tactfulness, he can mingle such
questions with others and get the desired information. He can twist the
questions keeping in mind the informant’s reaction. Precisely, a delicate
situation can usually he handled more effectively by a personal interview than
by other survey techniques.
5. The interviewer can adjust the language according to the status
and educational level of the person interviewed, and thereby can avoid
inconvenience and misinterpretation on the part of the informant.
Demerits:
1. This method can prove to be expensive if the number of
informants is large and the area is widely spread.
2. There is a greater chance of personal bias and prejudice under
this method as compared to other methods.
3. The interviewers have to be thoroughly trained and experienced;
otherwise they may not be able to obtain the desired information. Untrained or
poorly trained interviewers may spoil the entire work.
4. This method is more time taking as compared to others. This is
because interviews can be held only at the convenience of the informants. Thus,
if information is to be obtained from the working members of households,
interviews will have to be held in the evening or on week end. Even during
evening only an hour or two can be used for interviews and hence, the work may
have to be continued for a long time, or a large number of people may have to
be employed which may involve huge expenses.
In the present time of extreme advancement in the communication
system, the investigator instead of going personally and conducting a face to
face interview may also obtain information over telephone. A good number of
surveys are being conducted every day by newspapers and television channels by
sending the reply either by e-mail or SMS. This method has become very popular
nowadays as it is less expensive and the response is extremely quick. But this
method suffers from some serious defects, such as (a) those who own a phone or
a television only can be approached by this method, (b) only few questions can
be asked over phone or through television, (c) the respondents may give a vague
and reckless answers because answers on phone or through SMS would have to be
very short.
2. Indirect Oral Interviews:
Under this method of data collection, the investigator contacts
third parties generally called ‘witnesses’ who are capable of supplying necessary
information. This method is generally adopted when the information to be
obtained is of a complex nature and informants are not inclined to respond if
approached directly. For example, when the researcher is trying to obtain data
on drug addiction or the habit of taking liquor, there is high probability that
the addicted person will not provide the desired data and hence will disturb
the whole research process. In this situation taking the help of such persons
or agencies or the neighbours who know them well becomes necessary. Since these
people know the person well, they can provide the desired data. Enquiry
Committees and Commissions appointed by the Government generally adopt this
method to get people’s views and all possible details of the facts related to
the enquiry.
Therefore, for the success of this method it is necessary that the
evidence of one person alone is not relied upon. Views from other persons and
related agencies should also be ascertained to find the real position .Utmost
care must be exercised in the selection of these persons because it is on their
views that the final conclusions are reached.
3. Information from Correspondents:
The investigator appoints local agents or correspondents in
different places to collect information under this method. These correspondents
collect and transmit the information to the central office where data are
processed. This method is generally adopted by newspaper agencies.
Correspondents who are posted at different places supply information relating
to such events as accidents, riots, strikes, etc., to the head office. The
correspondents are generally paid staff or sometimes they may be honorary
correspondents also. This method is also adopted generally by the government
departments in such cases where regular information is to be collected from a
wide area. For example, in the construction of a wholesale price index numbers
regular information is obtained from correspondents appointed in different
areas. The biggest advantage of this method is that, it is cheap and
appropriate for extensive investigation. But a word of caution is that it may
not always ensure accurate results because of the personal prejudice and bias
of the correspondents. As stated earlier, this method is suitable and adopted
in those cases where the information is to be obtained at regular intervals
from a wide area.
4. Mailed Questionnaire Method:
Under this method, a list of questions pertaining to the survey
which is known as ‘Questionnaire’ is prepared and sent to the various informants
by post. Sometimes the researcher himself too contacts the respondents and gets
the responses related to various questions in the questionnaire. The
questionnaire contains questions and provides space for answers. A request is
made to the informants through a covering letter to fill up the questionnaire
and send it back within a specified time. The questionnaire studies can be
classified on the basis of:
i. The degree to which the questionnaire is formalized or
structured.
ii. The disguise or lack of disguise of the questionnaire and
iii. The communication method used.
When no formal questionnaire is used, interviewers adapt their
questioning to each interview as it progresses. They might even try to elicit
responses by indirect methods, such as showing pictures on which the respondent
comments. When a researcher follows a prescribed sequence of questions, it is
referred to as structured study.
On the other hand, when no prescribed sequence of questions exists, the study
is non-structured.
When questionnaires are constructed in such a way that the
objective is clear to the respondents then these questionnaires are known as non- disguised; on the other hand,
when the objective is not clear, the questionnaire is a disguised one. On the basis of these two classifications, four
types of studies can be distinguished:
1. Non-disguised structured,
2. Non-disguised non-structured,
3. Disguised structured and
4. Disguised non-structured.
There are certain merits and demerits of this method of data
collection which are discussed below:
Merits:
1. Questionnaire method of data collection can be easily adopted
where the field of investigation is very vast and the informants are spread
over a wide geographical area.
2. This method is relatively cheap and expeditious provided the
informants respond in time.
3. This method has proved to be superior when compared to other
methods like personal interviews or telephone method. This is because when
questions pertaining to personal nature or the ones requiring reaction by the
family are put forth to the informants, there is a chance for them to be
embarrassed in answering them.
Demerits:
1. This method can be adopted only where the informants are
literates so that they can understand written questions and lend the answers in
writing.
2. It involves some uncertainty about the response. Co-operation
on the part of informants may be difficult to presume.
3. The information provided by the informants may not be correct
and it may be difficult to verify the accuracy.
However, by following the guidelines given below, this method can
be made more effective:
The questionnaires should be made in such a manner that they do
not become an undue burden on the respondents; otherwise the respondents may
not return them back.
i. Prepaid postage stamp should be affixed
ii. The sample should be large
iii. It should be adopted in such enquiries where it is expected
that the respondents would return the questionnaire because of their own
interest in the enquiry.
iv. It should be preferred in such enquiries where there could be
a legal compulsion to provide the information.
5. Schedules Sent Through Enumerators:
Another method of data collection is sending schedules through the
enumerators or interviewers. The enumerators contact the informants, get
replies to the questions contained in a schedule and fill them in their own
handwriting in the questionnaire form. There is difference between
questionnaire and schedule. Questionnaire refers to a device for securing
answers to questions by using a form which the respondent fills in himself,
whereas schedule is the name usually applied to a set of questions which are
asked in a face-to face situation with another person. This method is free from
most of the limitations of the mailed questionnaire method.
Merits:
The main merits or advantages of this method are listed below:
1. It can be adopted in those cases where informants are
illiterate.
2. There is very little scope of non-response as the enumerators
go personally to obtain the information.
3. The information received is more reliable as the accuracy of
statements can be checked by supplementary questions wherever necessary.
This
method too like others is not free from defects or limitations. The main
limitations are listed below:
Demerits:
1. In comparison to other methods of collecting primary data, this
method is quite costly as enumerators are generally paid persons.
2. The success of the method depends largely upon the training
imparted to the enumerators.
3. Interviewing is a very skilled work and it requires experience
and training. Many statisticians have the tendency to neglect this extremely
important part of the data collecting process and this result in bad
interviews. Without good interviewing most of the information collected may be
of doubtful value.
4. Interviewing is not only a skilled work but it also requires a
great degree of politeness and thus the way the enumerators conduct the
interview would affect the data collected. When questions are asked by a number
of different interviewers, it is possible that variations in the personalities
of the interviewers will cause variation in the answers obtained. This
variation will not be obvious. Hence, every effort must be made to remove as
much of variation as possible due to different interviewers.
Observation Method
The observation method
is the most commonly used method especially in studies relating to behavioural
sciences. In a way we all observe things around us, but this sort of
observation is not scientific observation. Observation becomes a scientific
tool and the method of data collection for the researcher, when it serves a
formulated research purpose, is systematically planned and recorded and is
subjected to checks and controls on validity and reliability. Under the
observation method, the information is sought by way of investigator’s own
direct observation without asking from the respondent. For instance, in a study
relating to consumer behaviour, the investigator instead of asking the brand of
wristwatch used by the respondent, may himself look at the watch. The main
advantage of this method is that if observation is done accurately. Secondly,
the information obtained under this method relates to what is currently
happening; it is not complicated by either the past behaviour or future
intentions or attitudes. Thirdly, this method is independent of respondents’
willingness to respond and as such is relatively less demanding of active
cooperation on the part of respondents as happens to be the case in the
interview or the questionnaire method. This method is particularly suitable in
studies which deal with subjects (i.e. respondents) who are not capable of
giving verbal reports of their feelings for one reason or the other.
“However, observation
method has various limitations. Firstly, it is an expensive method. Secondly,
the information provided by this method is very limited. Thirdly, sometimes,
unforeseen factors may interfere with the observational task. At times, the
fact that some people are rarely accessible to direct observation creates
obstacle for this method to collect data effectively.
While using this
method, the researcher should keep in mind things like: What should be
observed? How the observations should be recorded? Or how the accuracy of
observation can be ensured? In case the observation is characterized by a
careful definition of the units to be observed, the style of characterized by a
careful definition of the units to be observed, the style of recording the
observed information, standardized conditions of observations and the selection
of pertinent data of observation, then the observation is called as structured
observation. But when observation is to take place without these
characteristics to be thought of in advance, the same is termed as unstructured
observation. Structured observation is considered appropriate in descriptive
studies, whereas in an exploratory study the observational procedure is most
likely to be relatively unstructured.
We often talk about
participant and non-participant types of observation in the context of studies,
particularly of social sciences. This distinction depends upon the observer’s
sharing or not sharing the life of the group he is observing. If the observer
observes by making himself, more or less, a member of the group he is observing
so that he can experience what the members of the group experience, the
observation is called as the participant observation. But when the observer
observes as a detached emissary without any attempt on his part to experience
through participation what others feel, the observation of this type is often
termed as non-participant observation. (When the observer is observing in such
a manner that his presence may be unknown to the people he is observing, such
an observation is described as disguised observation).
There are several
merits of the participant type of observation: (i) the researcher is enabled to
record the natural behaviour of the group. (ii) the researcher can even gather
information which could not easily be obtained if he observes in a
disinterested fashion. (iii) The researcher can even verify the truth of
statements made by informants in the context of a questionnaire or a schedule.
But there are also certain demerits of this type of observation viz., the
observer may lose the objectivity to the extent he participates emotionally;
the problem of observation-control is not solved; and it may narrow-down the
researcher’s range of experience.
Sometimes we talk of
controlled and uncontrolled observation. If the observation takes place in the
natural setting, it may be termed as uncontrolled observation, but when
observation takes place according to definite pre-arranged plans, involving
experimental procedure, the same is then termed controlled observation. In
non-controlled observation, no attempt is made to use precision instruments.
The major aim of this type of observation is to get a spontaneous picture of
life and persons. It has a tendency to supply naturalness and completeness of
behaviour, allowing sufficient time for observing it. But in controlled observation,
we use mechanical (or precision) instruments as aids to accuracy and
standardization. Such observation has a tendency to supply formalized data upon
which generalizations can be built with some degree of assurance. The main
pitfall of non-controlled observation is that of subjective interpretation.
There is also the danger of having the feeling that we know more about the
observed phenomena than we actually do. Generally, controlled observation takes
place in various experiments that are carried out in a laboratory or under
controlled conditions, whereas uncontrolled observation is resorted to in case
of exploratory researches.
Data collection
through mechanical observation
There are situations
where machines can provide data by recording the events of interest as they
occur, without a researcher being physically present. Nielsen ratings is an
oft-cited example in this regard. Other examples include collection of details
of products sold by types of brands tracked through optical scanners and bar codes
at the checkout stand, and tracking systems keeping a record of how many
individuals utilize a facility or visit a web site. Films and electronic
recording devices such as video cameras can also be used to record data. Such
mechanically observed data are error-free.
Projective methods
Certain ideas and
thoughts that cannot be easily verbalized or that remain at the unconscious
levels in the respondents’ minds can usually be brought to the surface through
motivational research. This is typically done by trained professionals who
apply different probing techniques in order to bring to the surface deep-rooted
ideas and thoughts in the respondents. Familiar techniques for gathering such
data are word associations, sentence completion, thematic apperception tests
(TAT), inkblot tests, and the like.
Word association
techniques, such as asking the respondent to quickly associate a word-say,
work-with the first thing that comes to mind, are often used to get at the true
attitudes and feelings. The reply would be an indication of what work means to
the individual. Similarly, sentence completion would have the respondent
quickly complete a sentence, such as “work is –“. One respondent might say,
“Work is a lot of fun”, whereas another might say “Work is drudgery”. These
responses may provide some insights into individuals’ feelings and attitudes
toward work.
Thematic apperception
tests (TAT) call for the respondent to weave a story around a picture that is
shown. Several need patterns and personality characteristics of employees could
be traced through these tests. Inkblot tests, another form of motivational
research, use coloured inkblots that are interpreted by the respondents, who
explain what they see in the various patterns and colours.
Although these types of
projective tests are useful for tapping attitudes and feelings that are
difficult to obtain otherwise, they cannot be resorted to by researchers who
are not trained to conduct motivational research. Consumer preferences, buying
attitudes and behaviours, product development and other marketing research
strategies make substantial use of in-depth probing. TAT and inkblot tests are
on their way out in marketing research since advertisers and others now use the
sentence completion tests and word association tests more frequently. Sketch
drawings, Collages from magazine pictures, filling in the balloon captions of
cartoon characters, and other strategies are also being followed to see how
individuals associate different products, brands, advertisements, and so on, in
their minds. Agencies frequently ask subjects to sketch “typical” users of
various brands and narrate stories about them. The messages conveyed through
the unsophisticated drawings are said to be very powerful, helping the
development of different marketing strategies.
The idea behind
motivational research is that “emotionality” (“I identify with it” feeling)
rather than “rationality” (“it is good for me” thought), which is what keeps a
product or practice alive, is captured. Emotions are powerful motivators of
actions, and knowledge of what motivates individuals to act is very useful. The
failure of attempts to trade in the “New Coke” for “Classic Coke” is an
oft-cited example of the emotional aspect. Emotionality is clearly at the
non-rational, subconscious level, lending itself to capture by projective
techniques alone.
Modern
technology is increasingly playing a key role in shaping data collection
methods. Computer-assisted surveys, which help both interviewing as well as
preparing and administering questionnaire electronically, are on the increase.
Computer-assisted telephone interviewing (CATI), interactive electronic
telephonic surveys, as well as administering questionnaires through electronic
mail (e-mail), are now being used to facilitate data gathering.
Focus
groups
Focus
groups consist typically of 8 to 10 members with a moderator leading the
discussions for about 2 hours on a particular topic, concept, or product.
Members are generally chosen on the basis of their expertise in the topic on
which information is sought. For example, computer specialists may be selected
to form a focus group to discuss matters related to computers and computing,
and women with children may compose the focus group to identify how
organizations can help working mothers. The focus sessions are aimed at
obtaining respondents impressions, interpretations, and opinions, as the
members talk about the event, concept, product, or service. The moderator plays
a vital role in steering the discussions in a manner that would draw out the
information sought and keeping the members on track.
Focus
group discussions on a specific topic at a particular location and at a
specified time provide the opportunity for a flexible, free-flowing format for
the members. The unstructured and spontaneous responses are expected to reflect
the genuine opinions, ideas, and feelings of the members about the topic under
discussion. Focus groups are relatively inexpensive and can provide fairly
dependable data within a short time frame.
Face-to-face
and telephone interviews
Interviews can be
conducted either face to face or over the telephone. They could also be
computer-assisted. Although most unstructured interviews in organizational
research are conducted face-to-face, structured interviews could be either face
to face or through the medium of the telephone, depending on the level of
complexity of the issues involved, the likely duration of the interview, the
convenience of both parties, and the geographical area covered by the survey.
Telephone interviews are best suited when information from a large number of
respondents spread over a wide geographical areas is to be obtained quickly,
and the likely duration of each interview is, say, 10 minutes or less. Many
market surveys, for instance, are conducted through structured telephone
interviews. In addition, computer-assisted telephone interviews (CATI) are also
possible, and easy to manage.
Secondary Data:
As stated earlier, secondary data are those data which have
already been collected and analyzed by some earlier agency for its own use, and
later the same data are used by a different agency. According to
W.A.Neiswanger, “A primary source is a publication in which the data are
published by the same authority which gathered and analyzed them. A secondary
source is a publication, reporting the data which was gathered by other
authorities and for which others are responsible.”
Sources of Secondary Data:
The various sources of secondary data can be divided into two
broad categories:
1. Published sources, and
2. Unpublished sources.
1. Published Sources:
The governmental, international and local agencies publish
statistical data, and chief among them are explained below:
(a) International Bublications: There are some international
institutions and bodies like I.M.F, I.B.R.D, I.C.A.F.E and U.N.O who publish
regular and occasional reports on economic and statistical matters.
(b) Official Publications of Central and State Governments:
Several departments of the Central and State Governments regularly publish
reports on a number of subjects. They gather additional information. Some of
the important publications are: The Reserve Bank of India Bulletin, Census of
India, Statistical Abstracts of States, Agricultural Statistics of India,
Indian Trade Journal, etc.
(c) Semi-Official Publications: Semi-Government institutions like
Municipal Corporations, District Boards, Panchayats, etc. Publish reports
relating to different matters of public concern.
(d) Publications of Research Institutions: Indian Statistical
Institute (I.S.I), Indian Council of Agricultural Research (I.C.A.R), Indian
Agricultural Statistics Research Institute (I.A.S.R.I), etc. Publish the
findings of their research programmes.
(e) Publications of various Commercial and Financial Institutions
(f) Reports of various Committees and Commissions appointed by the
Government as the Raj Committee’s Report on Agricultural Taxation, Wanchoo
Committee’s Report on Taxation and Black Money, etc. are also important sources
of secondary data.
(g) Journals and News Papers: Journals and News Papers are very
important and powerful source of secondary data. Current and important
materials on statistics and socio-economic problems can be obtained from
journals and newspapers like Economic Times, Commerce, Capital, Indian Finance,
Monthly Statistics of trade etc.
2. Unpublished Sources: Unpublished
data can be obtained from many unpublished sources like records maintained by
various government and private offices, the theses of the numerous research
scholars in the universities or institutions etc.
The
choice of data collection methods depends on the facilities available, the
degree of accuracy required, the expertise of the researcher, the time span of
the study, and other costs and resources associated with and available for data
gathering.
Q.10
Discuss the nature and usefulness of a ‘questionnaire’ used for research
studies? Also explain the guidelines to be consider while drafting a
questionnaire?
Ans. INTRODUCTION
A
questionnaire is a pre-formulated written set of questions to which respondents
record their answers, usually within rather closely defined alternatives.
Questionnaires are an efficient data collection mechanism when the researcher
knows exactly what is required and how to measure the variables of interest.
Questionnaires can be administered personally, mailed to the respondents, or
electronically distributed.
When the
survey is confined to a local area, and the organization is willing and able to
assemble groups of employees to respond to the questionnaires at the workplace,
a good way to collect data is to personally administer the questionnaires. The
main advantage of this is that the researcher or a member of the research team
can collect all the completed responses within a short period of time. Any
doubts that the respondents might have on any question could be clarified on
the spot. The researcher is also afforded the opportunity to introduce the
research topic and motivate the respondents to offer their frank answers.
Administering questionnaires to large numbers of individuals at the same time
is less expensive and consumes less time than interviewing; it does not also
require as much skill to administer the questionnaire as to conduct interviews.
Wherever possible, questionnaires are best administered personally to groups of
people because of these advantages. However, organizations are often unable or
disinclined to allow work hours to be spent on data collection, and other ways
of getting the questionnaires back after completion may have to be found. In
such cases, employees may be given blank questionnaires to be collected from
them personally on completion after a few days, or mailed back by a certain
data in collecting primary data, particularly in surveys and descriptive
researches.
The main advantage of
mail questionnaires is that a wide geographical area can be covered in the
survey. They are mailed to the respondents, who can complete them at their
convenience, in their homes, and at their own pace. However, the return rates
of mail questionnaires are typically low. A 30% response rate is considered
acceptable. Another disadvantage of the mail questionnaire is that any doubts
the respondents might have cannot be clarified. Also, with very low return
rates it is difficult to establish the representativeness of the sample because
those responding to the survey may not at all represent the population they are
supposed to. However, some effective techniques can be employed for improving
the rates of response to mail questionnaires. Sending follow-up letters,
enclosing some small monetary amounts as incentives with the questionnaire,
providing the respondent with self-addressed, stamped return envelopes, and
keeping the questionnaire brief do indeed help.
Mail questionnaires are
also expected to meet with a better response rate when respondents are notified
in advance about the forthcoming survey, and a reputed research organization
administers them with its own introductory cover letter.
The choice of using the
questionnaire as a data gathering method might be restricted if the researcher
has to reach subjects with very little education. Adding pictures to the
questionnaires, if feasible, might be of help in such cases. For most
organizational research, however, after the variables for the research have
been identified and the measuires therefore found or developed, the
questionnaire is a convenient data collection mechanism. Field studies,
comparative surveys, and experimental designs often use questionnaires to
measure the variables of interest. Because questionnaires are in common use in
surveys, it is necessary to know how to design them effectively. A set of
guidelines for questionnaire construction follows.
Objectives of Questionnaire
Any questionnaire has
three specific objectives. First, it must translate the information needed into
a set of specific questions that the respondents can and will answer.
Developing questions that respondents can and will answer and that will yield
the desired information is difficult. Two apparently similar ways of posing a
question may yield different information. Hence, this objective is a challenge.
Second, a questionnaire
must uplift, motivate and encourage the respondent to become involved in the
interview, to cooperate, and to complete the interviews. Incomplete interviews
have limited usefulness at best. In designing a questionnaire, the researcher
should strive to minimize respondent fatigue, boredom, and efforts to minimize
incompleteness and non-response.
Third, a questionnaire
should minimize response error. The response error may be defined as the error
that arises when respondents give inaccurate answers or their answers are
misrecorded or misanalyzed. A questionnaire can be major source of response
error. Minimizing this error is an important objective of questionnaire design.
QUESTIONNAIRE
DESIGN PROCESS
This presents
guidelines useful to beginning researchers in designing questionnaires.
Although these rules can help you avoid major mistakes, the fine-tuning of a
questionnaire comes from the creativity of a skilled researcher.
Questionnaire design
will be presented as a series of steps. We will present guidelines for each
step. For example, the researcher may discover that respondents misunderstand
all the possible workings of question. This may require a loop back to the
earlier step of deciding on the question structure.
Specify the information
needed: The first step in questionnaire design is to specify
the information needed. This is also the first step in the research design
process. Note that as the research project progresses, the information needed
becomes more and more clearly defined. It is helpful to review components of
the problem and the approach, particularly the research questions, hypotheses,
and characteristics that influence the research design. To further ensure that
the information obtained fully addresses all the components of the problem, the
researcher should prepare a set of dummy tables. A dummy table is a blank table
used to catalogue data. It describes how the analysis will be structured one
the date have been collected.
Specify
the Information Needed
↓
Specify
the Type of Interviewing Method
↓
Determine
the Content of Individual questions
↓
Design
the questions to overcome the Respondent’s Inability and Unwillingness to
Answer
↓
Decide
on the question structure
↓
Determine
the question wording
↓
Arrange
the question in proper order
↓
Appearance
or “getup”
↓
Eliminate
Bugs by protesting
It
is also important to have a clear idea of the target population. The
characteristics of the respondent group have a great influence on questionnaire
design. Questions that are appropriate for college students may not be
appropriate for housewives. Understanding is associated with a high incidence
of uncertain or no opinion responses. The more diversified the respondent
group, the more difficult it is to design a single questionnaire that is
appropriate for the entire group.
Type of interviewing
method: An appreciation of how the type of interviewing
method influences questionnaire design can be obtained by considering how the
questionnaire is administered under each method. In personal interviews,
respondents see the questionnaire and interact face-to-face with the
interviewer. Thus lengthy, complex, and varied questions can be asked. In
telephone interviews, the respondents interact with the interviewer, but they
do not see the questionnaire. This limits the type of questions that can be
asked to short and simple ones (see the department store patronage project).
Mail questionnaires are-administered, so the questions must be simple and
detailed instructions must be provided. In computer assisted interviewing (CAPI
and CATI), complex skip patterns and randomization of questions to eliminate
order bias can be easily accommodated. Internet questionnaires share many of
the characteristics of CAPI, but e-mail questionnaires have to be simpler.
Questionnaires designed for personal and telephone interviews should be written
in a conversational style.
Sketch out the
precautions that must be taken while drafting a questionnaire.
A
questionnaire is formal set of questions or statements designed to gather
information from respondents that will accomplish the goals of the research project.
Questionnaires measure people’s attitudes, behavior and feelings toward just
about everything.
Factors
to be looked into while framing questionnaires:
1. Shared
Vocabulary:
·
Interactive language to be kept simple
& understandable
·
Highly technical language should be
avoided as much as possible
·
Words used should not be ambiguous or
vague.
2.
Unsupported Assumptions: Assumptions
should be explicitly stated not implied.
Unsupported
assumptions lead to exaggerated estimates.
3.
Frame of Reference: A
single word can have several connotations under different situations. The frame
of desirability should be made clear.
4. Biased
Wording: Biased Wording should be avoided. Awareness of
desirable response leads to shift of focus from actual response.
5. Adequate
Alternatives: Every question should have ample number
of alternatives. They should be explicit rather than being implicit.
6. Double
barreled questions: A single question that asks for two
responses. Interpretation of the responses not effective.
7. Positively
& negatively worded questions: Respondents are often
guided by the directions of the questions. Responses are different when surveys
are either exclusively positive or negative. Combination of both is desirable.
8. Generalizations
& Estimates: Proper structuring of questions to avoid
generalizations. Answers which require calculations should be avoided.
Q11. What are
the different approaches to interview as a method of data collection? Explain
their relative merits and demerits.
The
interview method of collecting data involves presentation of oral‐verbal stimuli and
reply in terms of oral‐verbal
responses. This method can be used through:
1.
Personal interviews and, if possible, through
2.
Telephone interviews
1.
Personal Interview: This method requires a person known as
the interviewer asking questions generally in a face to face contact to the
other person or persons. This sort of interview may be in the form of direct
personal investigation or it may be indirect oral investigation. Former method
is suitable for extensive investigations. Latter method is used by the
commissions and committees appointed by government to carry on investigations.
Advantages:
More information and that too in greater depth can be obtained
Interviewer by his own skill can overcome the resistance if any
There is a greater flexibility in this method
Personal information can as well be obtained easily
Disadvantages:
it is very expensive method
there remains the possibility of the bias of the interviewer
This method is relatively more time consuming
the presence of the
interviewer on the spot may over – stimulate the respondent
2.
Telephone interview: This method of collecting information
consists in contacting respondents on telephone itself. It is not very widely
used method, but plays important part in industrial survey. This method of data
collection is quite popular, particularly in case of big enquiries. It is being
adopted by the private individuals, research workers, private and public
organisations and even by governments. In this method a questionnaire is sent
to the persons concerned with the request to answer the questions and return
the questionnaire
Advantages:
•
Flexible compare to mailing method
•
Faster than other methods
•
Cheaper than personal interview method
•
Call backs are simple and economical also
•
High response than mailing method
•
Replies can be recorded without embarrassment to respondents
•
Interviewer can explain requirements more easily
•
No field staff is required
•
Wider distribution of sample is possible
Disadvantages:
•
Little time is given to respondents
•
Survey is restricted to respondents who have telephones
•
Not suitable for intensive survey where comprehensive answers are required
•
Bias information may be more
•
Very difficult to make questionnaire because it should short and to the point
Q12.
What are the various kinds of charts and diagrams which are used in data
analysis? Distinguish between line chart, bar chart and histogram.
Ans.
Graphs are pictorial representations of the relationships between two (or more)
variables and are an important part of descriptive statistics. Different types
of graphs can be used for illustration purposes depending on the type of
variable (nominal, ordinal, or interval) and the issues of interest. The
various types of graphs are:
Line
Graph: Line graphs use a single line to connect plotted
points of interval and, at times, nominal data. Since they are most commonly
used to visually represent trends over time, they are sometimes referred to as
time-series charts.
Advantages
-
Line graphs can clarify patterns and trends over time better than most other
graphs be visually simpler than bar graphs or histograms summarize a large data
set in visual form become more smooth as data points and categories are added be
easily understood due to widespread use in business and the media require
minimal additional written or verbal explanation.
Disadvantages
-
Line graphs can be inadequate to describe the attribute, behavior, or condition
of interest fail to reveal key assumptions, norms, or causes in the data be
easily manipulated to yield false impressions reveal little about key
descriptive statistics, skew, or kurtosis fail to provide a check of the
accuracy or reasonableness of calculations
Bar
graphs are commonly used to show the number or proportion of
nominal or ordinal data which possess a particular attribute. They depict the
frequency of each category of data points as a bar rising vertically from the
horizontal axis. Bar graphs most often represent the number of observations in
a given category, such as the number of people in a sample falling into a given
income or ethnic group. They can be used to show the proportion of such data
points, but the pie chart is more commonly used for this purpose. Bar graphs
are especially good for showing how nominal data change over time.
Advantages
-
Bar graphs can show each nominal or ordinal category in a frequency
distribution display relative numbers or proportions of multiple categories summarize
a large data set in visual form clarify trends better than do tables or arrays
estimate key values at a glance permit a visual check of the accuracy and
reasonableness of calculations be easily understood due to widespread use in
business and the media
Disadvantages
-
Bar graphs can require additional written or verbal explanation be easily
manipulated to yield false impressions be inadequate to describe the attribute,
behavior, or condition of interest fail to reveal key assumptions, norms,
causes, effects, or patterns
Histograms
are
the preferred method for graphing grouped interval data. They depict the number
or proportion of data points falling into a given class. For example, a histogram
would be appropriate for depicting the number of people in a sample aged 18-35,
36-60, and over 65. While both bar graphs and histograms use bars rising
vertically from the horizontal axis, histograms depict continuous classes of
data rather than the discrete categories found in bar charts. Thus, there
should be no space between the bars of a histogram.
Advantages
-
Histograms can begin to show the central tendency and dispersion of a data set
closely
resemble the bell curve if sufficient data and classes are used show each
interval in the frequency distribution summarize a large data set in visual
form clarify trends better than do tables or arrays estimate key values at a
glance permit a visual check of the accuracy and reasonableness of calculations
be easily understood due to widespread use in business and the media use bars
whose areas reflect the proportion of data points in each class
Disadvantages
-
Histograms can require additional written or verbal explanation be easily
manipulated to yield false impressions be inadequate to describe the attribute,
behavior, or condition of interest fail to reveal key assumptions, norms,
causes, effects, or pattern.
Q.13.
What do you mean by hypothesis? Explain in detail the procedure of testing a
hypothesis?
Hypothesis:
“Hypothesis may be defined as a proposition or a set of
propositions set forth as an explanation for the occurrence of some specified
group of phenomena either asserted merely as a provisional conjecture to guide
some investigation in the light of established facts” (Kothari, 1988). A research
hypothesis is quite often a predictive statement, which is capable of being
tested using scientific methods that involve an independent and some dependent
variables. For instance, the following statements may be considered:
i. “Students who take tuitions perform better than the others who
do not receive tuitions” or,
ii. “The female students perform as well as the male students”.
These two statements are hypotheses that can be objectively
verified and tested. Thus, they indicate that a hypothesis states what one is
looking for. Besides, it is a proposition that can be put to test in order to
examine its validity.
Characteristics of Hypothesis:
A hypothesis should have the following characteristic features:-
i. A hypothesis must be precise and clear. If it is not precise
and clear, then the inferences drawn on its basis would not be reliable.
ii. A hypothesis must be capable of being put to test. Quite
often, the research programmes fail owing to its incapability of being subject
to testing for validity. Therefore, some prior study may be conducted by the
researcher in order to make a hypothesis testable. A hypothesis “is tested if
other deductions can be made from it, which in turn can be confirmed or
disproved by observation”.
iii. A hypothesis must state relationship between two variables,
in the case of relational hypotheses.
iv. A hypothesis must be specific and limited in scope. This is
because a simpler hypothesis generally would be easier to test for the
researcher. And therefore, he/she must formulate such hypotheses.
v. As far as possible, a hypothesis must be stated in the simplest
language, so as to make it understood by all concerned. However, it should be
noted that simplicity of a hypothesis is not related to its significance.
vi. A hypothesis must be consistent and derived from the most
known facts. In other words, it should be consistent with a substantial body of
established facts. That is, it must be in the form of a statement which is most
likely to occur.
vii. A hypothesis must be amenable to testing within a stipulated
or reasonable period of time. No matter how excellent a hypothesis, a
researcher should not use it if it cannot be tested within a given period of
time, as no one can afford to spend a life-time on collecting data to test it.
viii. A hypothesis should state the facts that give rise to the
necessity of looking for an explanation. This is to say that by using the
hypothesis, and other known and accepted generalizations, a researcher must be
able to derive the original problem condition. Therefore, a hypothesis should
explain what it actually wants to explain, and for this it should also have an empirical
reference.
Concepts Relating to Testing of Hypotheses:
Testing of hypotheses requires a researcher to be familiar with
various concepts concerned with it such as:
1) Null Hypothesis and Alternative Hypothesis:
In the context of statistical analysis, hypotheses are of two
types viz., null hypothesis and alternative hypothesis. When two methods A and
B are compared on their relative superiority, and it is assumed that both the
methods are equally good, then such a statement is called as the null
hypothesis. On the other hand, if method A is considered relatively superior to
method B, or vice-versa, then such a statement is known as an alternative
hypothesis. The null hypothesis is expressed as H0, while the
alternative hypothesis is expressed as Ha. For example, if a researcher wants
to test the hypothesis that the population mean (μ) is equal to the
hypothesized mean (H0) = 100, then the null hypothesis should be stated as the
population mean is equal to the hypothesized mean 100. Symbolically it may be
written as:-
H0: = μ = μ H0 = 100
If sample results do not support this null hypothesis, then it
should be concluded that something else is true. The conclusion of rejecting
the null hypothesis is called as alternative hypothesis H1. To put it in simple
words, the set of alternatives to the null hypothesis is termed as the
alternative hypothesis. If H0 is accepted, then it implies that Ha is being
rejected. On the other hand, if H0 is rejected, it means that Ha is being
accepted. For H0: μ = μ H0 = 100, the following three possible alternative
hypotheses may be considered:29
Alternative hypothesis
|
To be read as follows
|
H1: μ ≠ μ H0
|
The alternative hypothesis is that the population mean is not
equal to 100, i.e., it could be greater than or less than 100
|
H1 : μ > μ H0
|
The alternative hypothesis is that the population mean is
greater than 100
|
H1 : μ < μ H0
|
The alternative hypothesis is that the population mean is less
than 100
|
Before the sample is drawn, the
researcher has to state the null hypothesis and the alternative hypothesis.
While formulating the null hypothesis, the following aspects need to be considered:
A. Alternative hypothesis is
usually the one which a researcher wishes to prove, whereas the null hypothesis
is the one which he/she wishes to disprove. Thus, a null hypothesis is usually
the one which a researcher tries to reject, while an alternative hypothesis is
the one that represents all other possibilities.
B. The rejection of a hypothesis
when it is actually true involves great risk, as it indicates that it is a null
hypothesis because then the probability of rejecting it when it is true is α
(i.e., the level of significance) which is chosen very small.
C. Null hypothesis should always
be specific hypothesis i.e., it should not state about or approximately a
certain value.
2) The Level Of Significance:
In the context of hypothesis testing,
the level of significance is a very important concept. It is a certain
percentage that should be chosen with great care, reason and insight. If for
instance, the significance level is taken at 5 per cent, then it means that H0 would be rejected when the sampling result has a less
than 0.05 probability of occurrence when H0 is
true. In other words, the five per cent level of significance implies that the
researcher is willing to take a risk of five per cent of rejecting the null
hypothesis, when (H0) is actually true. In sum, the
significance level reflects the maximum value of the probability of rejecting H0 when it is actually true, and which is usually
determined prior to testing the hypothesis.
3) Test of Hypothesis or
Decision Rule:
Suppose the given hypothesis is
H0 and the alternative hypothesis H1, then the researcher has to make a rule known as the
decision rule. According to the decision rule, the researcher accepts or
rejects H0. For example, if the H0 is that certain students are good against the H1 that all the students are good, then the researcher
should decide the number of items to be tested and the criteria on the basis of
which to accept or reject the hypothesis.
4) Type I and Type II Errors:
As regards the testing of
hypotheses, a researcher can make basically two types of errors. He/she may
reject H0 when it is true, or accept H0 when it is not true. The former is called as Type I
error and the latter is known as Type II error. In other words, Type I error
implies the rejection of a hypothesis when it must have been accepted, while
Type II error implies the acceptance of a hypothesis which must have been
rejected. Type I error is denoted by α (alpha) and is known as α error, while
Type II error is usually denoted by β (beta) and is known as β error.
5) One-Tailed and Two-Tailed
Tests:
These two types of tests are
very important in the context of hypothesis testing. A two-tailed test rejects
the null hypothesis, when the sample mean is significantly greater or lower
than the hypothesized value of the mean of the population. Such a test is
suitable when the null hypothesis is some specified value; the alternative
hypothesis is a value that is not equal to the specified value of the null
hypothesis.
Procedure of Hypothesis Testing:
Testing a hypothesis refers to
verifying whether the hypothesis is valid or not. Hypothesis testing attempts
to check whether to accept or not to accept the null hypothesis. The procedure
of hypothesis testing includes all the steps that a researcher undertakes for
making a choice between the two alternative actions of rejecting or accepting a
null hypothesis. The various steps involved in hypothesis testing are as
follows:
1) Making a Formal Statement: This step involves making a
formal statement of the null hypothesis (H0) and the
alternative hypothesis (Ha). This implies that the
hypotheses should be clearly stated within the purview of the research problem.
For example, suppose a school teacher wants to test the understanding capacity
of the students which must be rated more than 90 per cent in terms of marks,
the hypotheses may be stated as follows:
Null Hypothesis H0 : = 100 Alternative Hypothesis H1 : > 100
2) Selecting a Significance
Level:
The hypotheses should be tested
on a pre-determined level of significance, which should be specified. Usually,
either 5% level or 1% level is considered for the purpose. The factors that
determine the levels of significance are: (a) the magnitude of difference
between the sample means; (b) the sample size: (c) the variability of
measurements within samples; and (d) whether the hypothesis is directional or
non-directional. In sum, the level of significance should be sufficient in the
context of the nature and purpose of enquiry.
3) Deciding the Distribution to
Use:
After making decision on the
level of significance for hypothesis testing, the researcher has to next
determine the appropriate sampling distribution. The choice to be made
generally relates to normal distribution and the t-distribution. The rules
governing the selection of the correct distribution are similar to the ones
already discussed with respect to estimation.
4) Selection of a Random Sample and
Computing An Appropriate Value:
Another step involved in
hypothesis testing is the selection of a random sample and then computing a
suitable value from the sample data relating to test statistic by using the
appropriate distribution. In other words, it involves drawing a sample for
furnishing empirical data.
5) Calculation of the
Probability:
The next step for the researcher
is to calculate the probability that the sample result would diverge as far as
it can from expectations, under the situation when the null hypothesis is
actually true.
6) Comparing the Probability:
Another step involved consists
of making a comparison of the probability calculated with the specified value
of α, i.e. The significance level. If the calculated probability works out to
be equal to or smaller than the α value in case of one-tailed test, then the
null hypothesis is to be rejected. On the other hand, if the calculated
probability is greater, then the null hypothesis is to be accepted. In case the
null hypothesis H0
is rejected, the researcher runs
the risk of committing the Type I error. But, if the null hypothesis H0 is accepted, then it involves some risk (which cannot
be specified in size as long as H0 is
vague and not specific) of committing the Type II error.
Q.14
What is t-distribution? What are the uses of t-test in research decision
making?
Ans. A t-test is any statistical hypothesis test in which the test statistic follows a Student's t-distribution under the null hypothesis. It can be used to determine if two
sets of data are significantly different from each other.
A t-test
is most commonly applied when the test statistic would follow a normal
distribution if the value of a scaling term in the test statistic were known. When
the scaling term is unknown and is replaced by an estimate based on the data, the test statistics (under certain conditions) follow a Student's t distribution.
Among the most frequently used t-tests
are:
·
A one-sample location
test of whether the mean of a population has a
value specified in a null
hypothesis.
·
A two-sample
location test of the null hypothesis such that the means of two populations are equal. All such tests
are usually called Student's t-tests, though strictly
speaking that name should only be used if the variances of the two populations are also assumed to be
equal; the form of the test used when this assumption is dropped is sometimes
called Welch's t-test. These tests are often referred to as
"unpaired" or "independent samples" t-tests, as
they are typically applied when the statistical
units underlying the two
samples being compared are non-overlapping.
·
A test of the null
hypothesis that the difference between two responses measured on the same
statistical unit has a mean value of zero. For example, suppose we measure the
size of a cancer patient's tum or before and after a treatment. If the
treatment is effective, we expect the tum or size for many of the patients to
be smaller following the treatment. This is often referred to as the
"paired" or "repeated measures" t-test: see paired difference test.
Q.15.
Write a short note on:
(a) Z-test
(b) Chi-square test
Ans.
Z-test
A Z-test is a type of hypothesis test. Hypothesis
testing is just a way for you to figure out if results from a test are valid or
repeatable. For example, if someone said they had found a new drug that cures
cancer, you would want to be sure it was probably true. A hypothesis test will
tell you if it’s probably true, or probably not true. A Z test, is used when
your data is approximately normally distributed.
Several
different types of tests are used in statistics (i.e. f test, chi square test, t test). You would use a Z test if:
·
Data
points should be independent from each other. In other words, one data
point isn’t related or doesn’t affect another data point.
·
Your
data should be normally distributed. However, for large sample sizes (over 30)
this doesn’t always matter.
·
Your
data should be randomly selected from a population, where each item has an
equal chance of being selected.
Running a Z test on your data requires
five steps:
4. Calculate the z test statistic (see below).
5. Compare the test statistic to the critical z value and decide if you should support or reject the null
hypothesis.
F-TEST
F-tests are named after its test
statistic, F, which was named in honor of Sir Ronald Fisher. The F-statistic is
simply a ratio of two variances. Variances are a measure of dispersion, or how
far the data are scattered from the mean. Larger values represent greater
dispersion.
Variance is the square of the standard
deviation. For us humans, standard deviations are easier to understand than
variances because they’re in the same units as the data rather than squared
units. However, many analyses actually use variances in the calculations.
F-statistics are based on the ratio of
mean squares. The term “mean squares” may sound confusing but it is simply
an estimate of population variance that accounts for the degrees of
freedom (DF) used to calculate that estimate.
Despite being a ratio of variances,
you can use F-tests in a wide variety of situations. Unsurprisingly, the F-test
can assess the equality of variances. However, by changing the variances that
are included in the ratio, the F-test becomes a very flexible test. For
example, you can use F-statistics and F-tests to test the overall
significance for a regression model, to compare the fits of different models, to test
specific regression terms, and to test the equality of means.
UNIT IV
RESEARCH REPORT
INTRODUCTION
Research reporting is the oral or written presentation of evidence and the findings in such a way that it is readily understood and assessed by the reader and enables him to verify the validity of the conclusions. Research report writing is the culmination of the research investigation. It is at the stage of reporting that the researcher assembles the findings of the study, draws conclusions and evaluates his own findings. Report writing is the end product of research activity. It is highly skilled work; it is an interesting, fascinating, challenging, gruelling and sometimes even exasperating experience. Writing a research report is a technical activity that demands all the skills and patience of the researcher. It requires considerable thought, effort, patience and penetration and an overall approach to the problem, data and analysis. Also needed is firm control over language and great objectivity. A vast amount of planning and preparation is necessary for organising and writing the report. Perfection in a research report is achieved by continuous and persistent thought and creative and intelligent writing. Only hard and patient work on the facts, careful and critical assessment and intelligent planning in organising the report can facilitate communication. There are no standard criteria for the organisation of a report, popular or technical. They depend on each investigation, problem, the novelty or familiarity of the methods, nature and volume of facts, techniques of analysis and so on.
No research project is complete without a report. The nature of the report is determined by the project itself and to whom it is addressed. Academic research is expected to produce lengthy reports, or theses, covering all aspects of the research and reporting on them in a precise and rather formal manner. But no matter what the size or formality of the report, it is reasonable to expect it to convey information on a fairly standard set of topics. First, it must say why the work was done, what events led up to it and what other work was found to be relevant. This is usually contained in the introduction, which should also include the precise statement of the objective and aims of the project.
Generally, there should be a section describing what work was done. This should cover the methods used, their selection and any problems experienced in their application. From this it is easy to move on to what was found out, or the results. In turn, these lead on to the conclusions, which are a statement of what the researcher deduced from the results, and then on to the recommendations, which set out what the researcher feels should be the action taken as a result of the conclusions. Writing is not an activity that can be allocated an odd half-hour whenever it is convenient. It requires sustained concentration. The amount of time needed to make real progress in your writing depends on the way you prefer to work. Most people find that it takes a day to write about 2,000 words. But we all work in different ways. Some people, once they get started, prefer to continue until they drop from exhaustion! Others like to set a strict timetable, devoting three or four hours a day to writing. Whichever category you fall into, make sure you have time for writing allocated in your diary. We have found that it is helpful to have blocks of time where writing can take place on successive days. This ensures a degree of continuity of ideas, which isn’t easy to maintain if you keep having to ‘think your way back’ into your research.
TYPES OF REPORTS
Research reports may differ in length and form. Generally, business firms prefer reports in the form of letters. Banks, insurance companies and financial institutions require short balance-sheet type of tabulation in their annual reports to customers and shareholders. The results of a research investigation can be presented in a number of ways: as a technical report, a popular report, an article, a monograph or at times even in the form of an oral presentation. A technical report is used whenever a full written report of the study is required whether for record keeping or for public dissemination. A popular report is used if the research results have policy implications.
A. Technical report
A technical report is written for fellow researchers and therefore should be organised on a different footing altogether. In such a report, the researcher is expected to give a full account of the technical aspects, both in the sampling methods and the subject matter. Fellow professionals are more concerned about the methods employed. In fact, the value of the findings depends on the techniques adopted. The conceptual and analytical framework sample design should be adequately explained. A technical report consists of the following aspects.
1. Major findings and contents: A technical report will contain the main findings just in two or three pages.
2. Nature of the research work: This describes the general objectives of the study, formulation of the problem in operational items, the working hypothesis, the type of analysis, data required, etc.
3. Research methodology: This explains the various methods used in the study and their limitations. For instance, sample size, sample selection, etc.
4. Data analysis: The report analyses the data and their sources, characteristics and limitations. If secondary data are used, their suitability to the problem at hand is fully assessed. In case of a survey, the manner in which data were collected should be fully described.
5. Presentation of findings: The researcher presents his main findings of the study with supporting data in the form of tables and charts. This part is the main body of the report, usually extending over several chapters.
6. Main conclusion: Here, the main findings of the research are presented and the main body of the report, usually extending over several chapters.
7. Bibliography: This contains the main sources of secondary data.
8. Technical appendices: These contain all technical matters relating to questionnaires, mathematical derivations, elaboration on particular techniques of analysis and the like.
The above format provides a general idea of the nature of a technical report; the order of presentation may not necessarily be the same in all technical reports. Therefore, the presentation may differ; the different sections outlined above will not always be the same, nor will all these sections appear in any particular report.
B. Popular report
This stresses on simplicity and attractiveness. Its writing is clear, with minimum statistical details and the liberal use of charts and diagrams. It has an attractive layout, large print size, many subheadings, and may be even some cartoons. Besides, it emphasises on the practical aspects and policy implications. The following is the general outline of a popular report:
1. Major findings and conclusions: The report will have findings of practical interest and their implications.
2. Follow-up action: It will suggest follow-up action on the basis of the findings of the study in this section.
3. Objectives of the study: Here the problem is presented, along with the specific objectives of the study.
4. Methodology: Here, a description of the methods and techniques used, including a short review of the data on which the study is based, is provided.
5. Results: This is the main body of the report, presented in clear and non-technical terms with the liberal use of all sorts of illustrations such as charts, diagrams and the like.
6. Appendices: This consists of detailed information on the methods used, forms, etc. Appendices are generally not included if the report is meant for the general public.
A popular report emphasises on simplicity and policy implications from the operational point of view, avoiding technical details.
The following outline may be adopted while preparing the research report:
(I) The preliminaries Title page. Preface or foreword, acknowledgements. Graphs or illustrations, tables, charts. Table of contents.
(II) Contents of the report:
1. Introduction Objectives of the study, statement of the problem, hypotheses and definition of concepts. Review of literature and research studies. Time, place and materials of the survey. Scope, assumptions and limitations. Organisation and sampling procedures. Methods, tools and techniques employed for data collection.
2. Analysis and presentation of results: Report of facts— nature, volume and dimension. Statistical analysis of data. Summary of findings and recommendations.
3. The reference materials: Bibliography. Appendices— questionnaires/statistical tables etc. Glossary of terms Index
PHYSICAL LAYOUT OF THE REPORT
The manuscript should be typed or printed on unruled white paper, leaving one-and-a-half-inch margins on both the right and left sides (lateral sides) of the paper. There should also be a one-inch margin, top and bottom (vertical margin/header and footer). The paper should be neat, legible and printed in double-spaced lines preferably in the Times New Roman font with 12 point letter size. The physical arrangement of the paper gives a better appearance, which elicits more interest among readers.
PLANNING AND ORGANISATION OF AN ACADEMIC REPORT
Proper planning and organisation of study materials are important while preparing the research report. At the writing stage, a researcher will have accumulated a mass of data and information that will have to be prudently and carefully used. Well-conceived planning and organisation facilitates the writing of the report, with a proper emphasis on the different aspects of the study. Planning involves each chapter and aspect of the report. It is nothing but the arrangement of ideas in a logical and coherent manner within the framework of the overall structure laid down.
Stages of writing an academic report
In general, there are six stages in writing a report. They are: • Systematic analysis of the subject. • Drawing the outline of the report. • Preparation of the rough draft. • Enrichment of the final draft. • Preparation of the final bibliography. • Finalising the complete draft.
Now we will discuss some of the important stages:
(a) Finalising the complete draft: This is the first step in writing a report. The final draft should be written in simple language and in a concise and condensed form. The researcher must avoid vague
expressions such as ‘it seems’, ‘may be’ and ‘could be’, abstract terminology and technical jargon. At the outset, the report should reflect the study’s intention to solve some intellectual problem and adding to the knowledge of both the researcher and the reader. At the same time, it should be written in such a way that it attracts the readers’ interest and shows some originality in presentation. Some researchers may incorporate the current trends in the field, common experiences, critical incidents etc. to strengthen and reinforce the findings of the research.
(b) Formation of an outline: An outline is a must while writing a report; it is like the skeleton in a human body. The outline of the study is made at two stages: once at the beginning of the study, which serves as a design of the study, and once before writing the report. The outline prepared for writing the report should be elaborate so as to include all important aspects that should find a place in the report. The outline should be prepared at three stages: topical outline, paragraph outline and sentence outline.
Topical outline: This includes the chapters and broad aspects to be included in each chapter. It is a skeleton outline.
Paragraph outline: This includes all major paragraphs, indicating the central idea of each paragraph.
Sentence outline: This does not imply writing of sentences. It merely involves points to be covered in sentences.
The following points need to be observed while planning an outline:
• It should be as detailed as possible and should enable continuous writing.
• It should not be vague and should not include such value phrases as ‘body’, ‘facts and figures’, etc, which give no direction to the report writing.
• It should fulfil the considerations of chronology, topical unity, coherence and transition.
• Each paragraph should contain one major idea.
(c) Important parts of a report
1. The preliminaries: The following aspects should be highlighted in the first part of the research report: • Title of the report. • Acknowledgement • Preface • Foreword • Contents • List of tables and illustrations
2. The abstract: This is probably the most important part of the report because it may be the only part that some will read. It is a short summary of the complete project report. This enables those who are not sure whether they wish to read the complete report to make an informed decision. For those who intend to read the whole report, the abstract prepares them for what is to come. An abstract should contain four short paragraphs with the answers to the following questions:
• What are my research questions and why are they important?
• How did I go about answering the research question(s)?
• What did I find out?
• What conclusions do I draw regarding my research question(s)?
Smith (1991) lists five characteristics of a good abstract:
• It should be short. Try to keep it to a maximum of two sides of an A4-size paper sheet.
• It must be self-contained. Since it may be the only part of your report that some people see, it follows that it must summarise the complete content of your report.
• It must satisfy your reader’s needs. Your reader must be told about the problem or central issue that the research addresses and the method adopted to solve it. It must also contain a brief statement of the main results and conclusions.
• It must have the same emphasis as the report, with the consequence that the reader should gain an accurate impression of the report’s content from the abstract.
• It should be objective, precise and easy to read. The project report contents page should give you the outline structure for the abstract. Summarising each section should give you an accurate resume of the content of the report. Do ensure that you stick to what you have written in the report. The abstract is not the place for elaborating any of your main themes. Be objective. You will need to write several drafts before you eliminate every word that is not absolutely necessary. The purpose is to convey the content of your report in as clear and brief a way as possible.
• Writing a good abstract is difficult. The obvious thing to do is to write it after you have finished the report. We suggest that you draft it when you start writing the report so that your storyline is abundantly clear in your mind. You can then amend the draft when you have finished the report so that it conforms to the five principles above.
3. Research design: The researcher should highlight the research design of the project. The researcher should answer the following questions:
• What is its basic design? • What are the methods adopted to collect data? • How is the study carried out? • Is it an experimental/survey/historical data research method? • If the study is an experimental one, what are the experimental manipulations? • What type of questionnaire/interview/observations is used? • If measurements were based on observation, what instructions are given to the observers? • Who are the subjects? • How many of them have been selected? • How have they been selected? • How have they been selected? • Are the research instruments reliable? • Do the research instruments have validity?
All these questions, when properly answered, can be used to estimate the probable limits of the findings’ generalisability. The researcher has to take proper care to develop a well-planned research design, which is free from errors and limitations. To ensure the reliability and validity of the tools and instruments, a pilot study can be conducted to verify its strengths and utility.
4. Analysis of data: Here, the researcher has to highlight the type of statistical analysis adopted to analyse the data. The analysis can be listed from simple descriptive analysis to complex multivariate analysis.
5. The results: Once the analysis is over, the results can be depicted in a tabulated form, with appropriate illustrations. A detailed presentation of the findings of the study is a major part of the research report. These can be supported in the form of tables and charts together with a validation of results. Since it comprises the main body of the report, it generally extends over several chapters. It is advisable to project summarised results rather than raw data. All the results should be presented in logical sequence and split into readily identifiable sections. All relevant results must find a place in the report. All the results of the report should address the research problems stated earlier in the report, illustrating whether the results support or reject the hypothesis. But ultimately the researcher must rely on his own judgement in deciding the outline of his report.
Interpretation of results— some hints • To find the relationships among the variables that are studied and observing the commonality, uniqueness, diversity etc. among them. • To observe the role of extraneous variables. How they affect the various phenomena studied. • To ensure validity; the results can be cross-checked with others through consultation. • To consider all the relevant factors affecting the problem before generalising it to the whole population.
The prime tasks of interpretation is to bring to the surface the gist of the findings. A researcher should explain why the findings are so, in objective terms. He should try to bring out the principles involved in the observations. He can also make reasonable prediction. On the basis of interpretation of an exploratory study, a new hypothesis can be formulated for experimental research. During interpretation, unconnected, isolated facts should not be discarded, but should be explained properly. Interpretation leads to the establishment of some explanatory concepts arising out of the connection between the underlying processes and principles, and the observed facts from a working model. A researcher’s task is to identify and disengage such principles and processes. Interpretation can also provide a theoretical conception, which can be the basis of further researcher and new knowledge. Thus, continuity in research can be established and the quest for knowing the unknown can be sustained.
Prerequisites for good interpretation: some guidelines
— While drawing inferences from the analysis of data, the researcher has to ensure that the inferences are free from any biases and mistakes that may arise due to both subjective and objective factors. This can be minimised by: checking whether (a) the data are appropriate, trustworthy and adequate for drawing inferences b) the data reflect good homogeneity and (c) proper analysis has been done through statistical methods.
— The researcher should also check for personal bias (subjective element) while interpreting the results. There are so many pitfalls that have to be avoided while observing and interpreting the results. Some of them are: stereotyping (conforming with existing results), preoccupation with set results, projecting his own views on the subject, snap judgements, lack of appreciation for others’ feelings, prejudicial treatment and so on. The researcher must remain vigilant about all such things so that false generalisations may not take place. He should be well-equipped with statistical measures and must know their correct use for drawing inferences concerning his study.
— The researcher must always keep in view that the task of interpretation is very much intertwined with analysis and cannot be separated. He should take precautions about the reliability of data, computational checks, validation and comparison of results.
— The researcher should also pay attention to the hidden factors underlying the results. Broad generalisations should be avoided because the coverage may be restricted to a particular time, area and conditions.
— Originality and creativity are critical in interpreting the results. While linking the relationship between theoretical orientation and empirical observation, the researcher has to make use of his originality and creativity in developing concepts and models. He must pay special attention to this aspect while engaged in the task of interpretation.
6. Summary: It is a generally practice to conclude the report with a very brief summary. In business reports, it is called an executive summary. Here, all the aspects of the research report are given in capsule form.
7. Reference material: The listing of reference material comes at the end of any research report. Appendices with all technical data such as questionnaires, sample information, mathematical derivations etc. should be included at the end. The bibliography, listed in alphabetical order, should be added in the last section. Similarly, the researcher has to prepare an index (an alphabetical listing of names, places and topics along with the page numbers in the book or report in which they are mentioned). That should invariably be given at the end of the report.
8. Other considerations:
Use of quotations: The appropriate use of quotations will enrich the effective presentation of research reports. Quotations should be placed within quotation marks and double-spaced. In case the quotation is lengthy, it can be typed in single space and indented at least half an inch to the right of the normal text margin.
Punctuation and abbreviations: The researcher has to take care to check punctuation marks such as commas, full stops, colons, semicolons etc. these punctuation marks can be checked and verified in listing the bibliography, references, citations, documentations etc. For example, in listing the reference, the author’s name is followed by a comma. After the comma, the title of the book is given; the article (such as ‘a’, ‘an’, ‘the’ etc.) is omitted and only the first word, proper nouns and adjectives are capitalised. A comma follows the title. Information concerning the edition is given next. This entry is followed by a comma. The place of publication is then stated; it may be mentioned in an abbreviated form. For example, London is abbreviated as Lond, New York as N.Y. and so on.
REFERENCING IN THE TEXT
The Harvard system, which we have adopted in this book, uses the author’s name and data of publication to identify cited documents within the text. For example: • It has been shown that… (Saunders, 1993). • When referring generally to work by different authors on the subject, place the authors in alphabetical order: (Baker, 1991; Lewis, 1991; Thornhill, 1993). • When referring to dual authors: (Saunders and Cooper, 1993). • When there are more than two authors: (Bryce et al., 1991). • For corporate authors, for instance a company report: (Hanson Trust Plc, 1990). • For publications with no obvious author; for example an employment gazette: (Employment Gazette, 1993).
• When referring to different publications by the same author, the works should be arranged according to date in ascending order: (Lewis, 1989, 1991). • To differetiate between publications by the same author in the same year use a, b, c etc., (Forster, 1991a). Make sure that this is consistent throughout the research project and corresponds with the bibliography. • To reference an author referred to by another author where the original publication has not been read: (Granovetter, 1974, cited by Saunders, 1993). In this case the author who cites and the original document’s author should both appear in the bibliography.
REFERENCING IN THE BIBLIOGRAPHY
In the bibliography, the referenced publications are listed alphabetically by author’s name. All the author’s surnames and initials are listed in full. If there is more than one work by the same author, these are listed chronologically. • An example of a reference to a book would be: Saunders, M.N.K. and Cooper, S.A., (1993) Understanding Business Statistics, London, DP Publciations. • A reference to a book other than the first edition would be: Morris, C., (1993) Quantitative Approaches to Business Studies (3rd ed.,) London, Pitman Publishing. • A reference to a book with no obvious author would be: Department of Trade and Industry (1992). The Single Market: Europe open for Professions, UK Implementation, London, HMSO. • A reference to a particular chapter in a book would be: Robsoon, C., (1993) Real World Research, Oxford, Blackwell, Chapter 3.
• A reference to a particular chapter in an edited book would be: Graig, P.B. (1991) ‘Designing and Using Mail Questionnaires’, in Smith, N.C. and Dainty, P. (eds) The Management Research Handbook, London, Routledge, pp. 181-89. • An example of a reference to an article in a journal (in this example volume 20, part 6 would be): Brewster, C. and Bournois, F., (1992) ‘uman Resource Management: A European Perspective’, Personnel Review, 20: 6, 4-13.
FOOTNOTES
Researchers must insert footnotes in the appropriate places. These fulfil two purposes: • The proper identification of materials used in quotations in the report. • The footnotes provide supplementary value to the main body of the text. Based on the footnotes’ description, one can easily refer the cross references, citation of authorities and sources, acknowledgement and elucidation or explanation of a point of view. The recent trend is to avoid footnotes. Some people feel that they enhance display of the scholarship of the researchers. But it is neither an end nor a means of displaying scholarship.
Referencing in the Text
When using footnotes, a number shows references within the research report. For example: ‘Recent research1 indicates that…’ This number refers directly to the references.
Referencing in the reference
These list the referenced publications sequentially in the order they are referred to in your research report. This can be useful as it enables you to include comments and footnotes as well as references. • The layout of individual references in the bibliography is the same as that for the Harvard system. • If you find that your refer to the same item more than once you can use standard bibliographic abbreviations to save repeating the references in full. • The publications referred to only include those you have cited in your report. They should therefore be headed ‘References’ rather than ‘Bibliography’ as shown below: Abbreviation Explanation Op. cit. (opere ciato) Meaning, in the work cited. This refers to a work previously referenced and so you must give the author and date and if necessary the page number, like: Robson (1993) op. cit. pp. 23-4. Loc. Cit. (loco ciato) Meaning, in the place cited. This refers to the same page of a work previously referenced. So you must give the author and date, like: Robson (1993) loc. Cit. Ibid. (ibidem) Meaning, the same work given immediately before. This refers to the work referenced immediately before and replaces all details of the previous reference other than a page number if necessary.
PRECAUTIONS IN PREPARING REPORT
1. A report is an important way of communicating research findings to others. A good research report is one that does this task efficiently and effectively. Hence, the following precautions must be taken while preparing it: 2. While determining the length of the report, one should keep in mind the fact that it should be long enough to cover the subject but short enough to maintain interest. In fact, report writing should not be a means to learning more and more about less and less. 3. Abstract terminology and technical jargon should be avoided. The report should be able to convey the matter as simply as possible. In other words, this means that reports should be written in an objective style in simple language, avoiding expressions such as ‘it seems’, ‘there may be’ and the like. 4. Readers are often interested in acquiring quick knowledge of the main findings and as such the report must make the findings readily accessible. For this purpose, charts, graphs and statistical tables may be used for the various results in the main report in addition to summaries of important findings. 5. The layout of the research should be well thought out. It must be appropriate and in accordance with the objective of the research problem. 6. The report should be free from grammatical mistakes and must be prepared strictly according to the rules of composition of research reports such as the use of quotation marks, footnotes, documentation, punctuation and use of abbreviations in footnotes and the like.
7. The report must present a logical analysis of the subject matter. It must reflect a structure wherein the different pieces of analysis relating to the research problem fit well. 8. A research report should show originality and should necessarily be an attempt to solve some intellectual problem. It must contribute to the solution of a problem and must add to the store of knowledge. 9. Towards the end, the report must also state the policy implications of the problem under consideration. It is usually considered desirable for a report to make a forecast of the probable future of the subject concerned and indicate the kind of research that still needs to be done in that particular field. 10. Appendices should be enlisted for all the technical data in the report. 11. Bibliography of sources consulted is a must for a good report. 12. An index is also considered an essential part of a good report and as such must be prepared and appended at the end. 13. The report must have an attractive appearance. It should be neat and clean, whether typed or printed. 14. Calculated confidence limits must be mentioned and the various constraints experienced in conducting the research study stated. 15. The objective of the study, the nature of the problem, the methods employed and the technique of analysis adopted must all be stated at the beginning of the report in the form of an introduction.
EVALUATION OF A REPORT— SOME CONSIDERATIONS
The evaluator has to give a report on the thesis or dissertation evaluated by him. There is no standard format for this report. The evaluator is expected to comment on (1) the importance of the study; (2) soundness of the methodology; (3) quality of analysis; (4) significance of the findings, and (5) format and style of presentation. It is not necessary for him to summarise the contents of the thesis. But he must point out the strengths and weaknesses of the work. He should give his final recommendation— whether the thesis should be accepted or rejected— in clear terms. If the thesis needs revision and re-submission, the evaluator should recommended that these be done. In this case, he should offer specific suggestions for revision.
Evaluation Criteria
There is no universally accepted set of standards for evaluating a research report. However, the following checklist will serve as a general guideline for a critical evaluation or analysis of a research report:
1. The appropriateness of the title
(a) Does it exactly indicate the core of the study? (b) Is it clear and concise? (c) Does it promise no more than what the study can provide?
2. Importance of the problem
(a) Is the research problem topically important? (b) Is it socially relevant in terms of its contribution to knowledge and/or solution to the burning problem of the day? (c) Are the research questions (objectives) clearly stated? (d) Are they specific and related to the selected theme?
(e) Are the hypotheses pertinent to the research questions? (f) Are they clearly stated and testable? (g) Are the concepts in the title, objectives and hypotheses operationally defined? (h) Are the operational definitions valid and reasonable? (i) Are assumptions and limitations stated? (j) Does the problem formulation reflect the researcher’s mastery of the subject matter of the study?
3. Review of related literature and earlier studies
(a) Is this review covered adequately? (b) Is it well-organised and documented? (c) Has the research gap been identified? (d) Does the present study fill in the gap?
4. Soundness of the methodology:
(a) Are the type of research and sources and methods of data collection described in detail? (b) Are the above methods appropriate to the problem under study and the respondents? (c) Is the research design appropriate to test adequately the hypothesised relationships? (d) Is the sampling design appropriate and described in detail? (e) Are the methods adopted for sampling scientific? (f) Is the sample size adequate? (g) Are relevant variables recognised, defined, inter-related and measured? (h) Are the data-gathering instruments appropriate? (i) Are the validity and reliability of the instruments established? (j) Are the details of the methodology adequate for replicability?
5. Data analysis
(a) Is the analysis objective and deep? (b) Is the statistical treatment appropriate? (c) Is appropriate use made of tables and charts? (d) Is their format proper and complete? (e) Have the hypotheses been adequately tested? (f) Is the analysis of data relationship logical and perceptive? (g) Is the significance of statistical results tested properly? (h) Are the statistical results interpreted and presented without any bias?
6. Contribution of the study and conclusions and recommendations
(a) Are the findings of the study stated clearly? (b) Are the findings generalisable? (c) Does the study test a theory or develop a new theory, a new model or new tool or contribute to methodology in any other way? (d) Are the conclusions logical and justified by the empirical evidence? (e) Are the implications of the results for policy and action explicitly pointed out? (f) Do the recommendatiosn flow from the findings? (g) Are the recommendatiosn specific and practical?
7. Presentation
(a) Is the format of the report appropriate? (b) Does the report have headings and sub-headings that facilitate reading and understanding it? (c) Is the chapter scheme based on the objective of the study?
(d) Is the textual discussion clear, concise and convincing? (e) Is the style of writing smooth and simple? (f) Is it free from spelling and grammatical errors? (g) Do the footnotes/references contain full details of the sources? (h) Is the bibliography exhaustive?
UNIT IV
RESEARCH REPORT
INTRODUCTION
Research reporting is the oral or written presentation of evidence and the findings in such a way that it is readily understood and assessed by the reader and enables him to verify the validity of the conclusions. Research report writing is the culmination of the research investigation. It is at the stage of reporting that the researcher assembles the findings of the study, draws conclusions and evaluates his own findings. Report writing is the end product of research activity. It is highly skilled work; it is an interesting, fascinating, challenging, gruelling and sometimes even exasperating experience. Writing a research report is a technical activity that demands all the skills and patience of the researcher. It requires considerable thought, effort, patience and penetration and an overall approach to the problem, data and analysis. Also needed is firm control over language and great objectivity. A vast amount of planning and preparation is necessary for organising and writing the report. Perfection in a research report is achieved by continuous and persistent thought and creative and intelligent writing. Only hard and patient work on the facts, careful and critical assessment and intelligent planning in organising the report can facilitate communication. There are no standard criteria for the organisation of a report, popular or technical. They depend on each investigation, problem, the novelty or familiarity of the methods, nature and volume of facts, techniques of analysis and so on.
No research project is complete without a report. The nature of the report is determined by the project itself and to whom it is addressed. Academic research is expected to produce lengthy reports, or theses, covering all aspects of the research and reporting on them in a precise and rather formal manner. But no matter what the size or formality of the report, it is reasonable to expect it to convey information on a fairly standard set of topics. First, it must say why the work was done, what events led up to it and what other work was found to be relevant. This is usually contained in the introduction, which should also include the precise statement of the objective and aims of the project.
Generally, there should be a section describing what work was done. This should cover the methods used, their selection and any problems experienced in their application. From this it is easy to move on to what was found out, or the results. In turn, these lead on to the conclusions, which are a statement of what the researcher deduced from the results, and then on to the recommendations, which set out what the researcher feels should be the action taken as a result of the conclusions. Writing is not an activity that can be allocated an odd half-hour whenever it is convenient. It requires sustained concentration. The amount of time needed to make real progress in your writing depends on the way you prefer to work. Most people find that it takes a day to write about 2,000 words. But we all work in different ways. Some people, once they get started, prefer to continue until they drop from exhaustion! Others like to set a strict timetable, devoting three or four hours a day to writing. Whichever category you fall into, make sure you have time for writing allocated in your diary. We have found that it is helpful to have blocks of time where writing can take place on successive days. This ensures a degree of continuity of ideas, which isn’t easy to maintain if you keep having to ‘think your way back’ into your research.
TYPES OF REPORTS
Research reports may differ in length and form. Generally, business firms prefer reports in the form of letters. Banks, insurance companies and financial institutions require short balance-sheet type of tabulation in their annual reports to customers and shareholders. The results of a research investigation can be presented in a number of ways: as a technical report, a popular report, an article, a monograph or at times even in the form of an oral presentation. A technical report is used whenever a full written report of the study is required whether for record keeping or for public dissemination. A popular report is used if the research results have policy implications.
A. Technical report
A technical report is written for fellow researchers and therefore should be organised on a different footing altogether. In such a report, the researcher is expected to give a full account of the technical aspects, both in the sampling methods and the subject matter. Fellow professionals are more concerned about the methods employed. In fact, the value of the findings depends on the techniques adopted. The conceptual and analytical framework sample design should be adequately explained. A technical report consists of the following aspects.
1. Major findings and contents: A technical report will contain the main findings just in two or three pages.
2. Nature of the research work: This describes the general objectives of the study, formulation of the problem in operational items, the working hypothesis, the type of analysis, data required, etc.
3. Research methodology: This explains the various methods used in the study and their limitations. For instance, sample size, sample selection, etc.
4. Data analysis: The report analyses the data and their sources, characteristics and limitations. If secondary data are used, their suitability to the problem at hand is fully assessed. In case of a survey, the manner in which data were collected should be fully described.
5. Presentation of findings: The researcher presents his main findings of the study with supporting data in the form of tables and charts. This part is the main body of the report, usually extending over several chapters.
6. Main conclusion: Here, the main findings of the research are presented and the main body of the report, usually extending over several chapters.
7. Bibliography: This contains the main sources of secondary data.
8. Technical appendices: These contain all technical matters relating to questionnaires, mathematical derivations, elaboration on particular techniques of analysis and the like.
The above format provides a general idea of the nature of a technical report; the order of presentation may not necessarily be the same in all technical reports. Therefore, the presentation may differ; the different sections outlined above will not always be the same, nor will all these sections appear in any particular report.
B. Popular report
This stresses on simplicity and attractiveness. Its writing is clear, with minimum statistical details and the liberal use of charts and diagrams. It has an attractive layout, large print size, many subheadings, and may be even some cartoons. Besides, it emphasises on the practical aspects and policy implications. The following is the general outline of a popular report:
1. Major findings and conclusions: The report will have findings of practical interest and their implications.
2. Follow-up action: It will suggest follow-up action on the basis of the findings of the study in this section.
3. Objectives of the study: Here the problem is presented, along with the specific objectives of the study.
4. Methodology: Here, a description of the methods and techniques used, including a short review of the data on which the study is based, is provided.
5. Results: This is the main body of the report, presented in clear and non-technical terms with the liberal use of all sorts of illustrations such as charts, diagrams and the like.
6. Appendices: This consists of detailed information on the methods used, forms, etc. Appendices are generally not included if the report is meant for the general public.
A popular report emphasises on simplicity and policy implications from the operational point of view, avoiding technical details.
The following outline may be adopted while preparing the research report:
(I) The preliminaries Title page. Preface or foreword, acknowledgements. Graphs or illustrations, tables, charts. Table of contents.
(II) Contents of the report:
1. Introduction Objectives of the study, statement of the problem, hypotheses and definition of concepts. Review of literature and research studies. Time, place and materials of the survey. Scope, assumptions and limitations. Organisation and sampling procedures. Methods, tools and techniques employed for data collection.
2. Analysis and presentation of results: Report of facts— nature, volume and dimension. Statistical analysis of data. Summary of findings and recommendations.
3. The reference materials: Bibliography. Appendices— questionnaires/statistical tables etc. Glossary of terms Index
PHYSICAL LAYOUT OF THE REPORT
The manuscript should be typed or printed on unruled white paper, leaving one-and-a-half-inch margins on both the right and left sides (lateral sides) of the paper. There should also be a one-inch margin, top and bottom (vertical margin/header and footer). The paper should be neat, legible and printed in double-spaced lines preferably in the Times New Roman font with 12 point letter size. The physical arrangement of the paper gives a better appearance, which elicits more interest among readers.
PLANNING AND ORGANISATION OF AN ACADEMIC REPORT
Proper planning and organisation of study materials are important while preparing the research report. At the writing stage, a researcher will have accumulated a mass of data and information that will have to be prudently and carefully used. Well-conceived planning and organisation facilitates the writing of the report, with a proper emphasis on the different aspects of the study. Planning involves each chapter and aspect of the report. It is nothing but the arrangement of ideas in a logical and coherent manner within the framework of the overall structure laid down.
Stages of writing an academic report
In general, there are six stages in writing a report. They are: • Systematic analysis of the subject. • Drawing the outline of the report. • Preparation of the rough draft. • Enrichment of the final draft. • Preparation of the final bibliography. • Finalising the complete draft.
Now we will discuss some of the important stages:
(a) Finalising the complete draft: This is the first step in writing a report. The final draft should be written in simple language and in a concise and condensed form. The researcher must avoid vague
expressions such as ‘it seems’, ‘may be’ and ‘could be’, abstract terminology and technical jargon. At the outset, the report should reflect the study’s intention to solve some intellectual problem and adding to the knowledge of both the researcher and the reader. At the same time, it should be written in such a way that it attracts the readers’ interest and shows some originality in presentation. Some researchers may incorporate the current trends in the field, common experiences, critical incidents etc. to strengthen and reinforce the findings of the research.
(b) Formation of an outline: An outline is a must while writing a report; it is like the skeleton in a human body. The outline of the study is made at two stages: once at the beginning of the study, which serves as a design of the study, and once before writing the report. The outline prepared for writing the report should be elaborate so as to include all important aspects that should find a place in the report. The outline should be prepared at three stages: topical outline, paragraph outline and sentence outline.
Topical outline: This includes the chapters and broad aspects to be included in each chapter. It is a skeleton outline.
Paragraph outline: This includes all major paragraphs, indicating the central idea of each paragraph.
Sentence outline: This does not imply writing of sentences. It merely involves points to be covered in sentences.
The following points need to be observed while planning an outline:
• It should be as detailed as possible and should enable continuous writing.
• It should not be vague and should not include such value phrases as ‘body’, ‘facts and figures’, etc, which give no direction to the report writing.
• It should fulfil the considerations of chronology, topical unity, coherence and transition.
• Each paragraph should contain one major idea.
(c) Important parts of a report
1. The preliminaries: The following aspects should be highlighted in the first part of the research report: • Title of the report. • Acknowledgement • Preface • Foreword • Contents • List of tables and illustrations
2. The abstract: This is probably the most important part of the report because it may be the only part that some will read. It is a short summary of the complete project report. This enables those who are not sure whether they wish to read the complete report to make an informed decision. For those who intend to read the whole report, the abstract prepares them for what is to come. An abstract should contain four short paragraphs with the answers to the following questions:
• What are my research questions and why are they important?
• How did I go about answering the research question(s)?
• What did I find out?
• What conclusions do I draw regarding my research question(s)?
Smith (1991) lists five characteristics of a good abstract:
• It should be short. Try to keep it to a maximum of two sides of an A4-size paper sheet.
• It must be self-contained. Since it may be the only part of your report that some people see, it follows that it must summarise the complete content of your report.
• It must satisfy your reader’s needs. Your reader must be told about the problem or central issue that the research addresses and the method adopted to solve it. It must also contain a brief statement of the main results and conclusions.
• It must have the same emphasis as the report, with the consequence that the reader should gain an accurate impression of the report’s content from the abstract.
• It should be objective, precise and easy to read. The project report contents page should give you the outline structure for the abstract. Summarising each section should give you an accurate resume of the content of the report. Do ensure that you stick to what you have written in the report. The abstract is not the place for elaborating any of your main themes. Be objective. You will need to write several drafts before you eliminate every word that is not absolutely necessary. The purpose is to convey the content of your report in as clear and brief a way as possible.
• Writing a good abstract is difficult. The obvious thing to do is to write it after you have finished the report. We suggest that you draft it when you start writing the report so that your storyline is abundantly clear in your mind. You can then amend the draft when you have finished the report so that it conforms to the five principles above.
3. Research design: The researcher should highlight the research design of the project. The researcher should answer the following questions:
• What is its basic design? • What are the methods adopted to collect data? • How is the study carried out? • Is it an experimental/survey/historical data research method? • If the study is an experimental one, what are the experimental manipulations? • What type of questionnaire/interview/observations is used? • If measurements were based on observation, what instructions are given to the observers? • Who are the subjects? • How many of them have been selected? • How have they been selected? • How have they been selected? • Are the research instruments reliable? • Do the research instruments have validity?
All these questions, when properly answered, can be used to estimate the probable limits of the findings’ generalisability. The researcher has to take proper care to develop a well-planned research design, which is free from errors and limitations. To ensure the reliability and validity of the tools and instruments, a pilot study can be conducted to verify its strengths and utility.
4. Analysis of data: Here, the researcher has to highlight the type of statistical analysis adopted to analyse the data. The analysis can be listed from simple descriptive analysis to complex multivariate analysis.
5. The results: Once the analysis is over, the results can be depicted in a tabulated form, with appropriate illustrations. A detailed presentation of the findings of the study is a major part of the research report. These can be supported in the form of tables and charts together with a validation of results. Since it comprises the main body of the report, it generally extends over several chapters. It is advisable to project summarised results rather than raw data. All the results should be presented in logical sequence and split into readily identifiable sections. All relevant results must find a place in the report. All the results of the report should address the research problems stated earlier in the report, illustrating whether the results support or reject the hypothesis. But ultimately the researcher must rely on his own judgement in deciding the outline of his report.
Interpretation of results— some hints • To find the relationships among the variables that are studied and observing the commonality, uniqueness, diversity etc. among them. • To observe the role of extraneous variables. How they affect the various phenomena studied. • To ensure validity; the results can be cross-checked with others through consultation. • To consider all the relevant factors affecting the problem before generalising it to the whole population.
The prime tasks of interpretation is to bring to the surface the gist of the findings. A researcher should explain why the findings are so, in objective terms. He should try to bring out the principles involved in the observations. He can also make reasonable prediction. On the basis of interpretation of an exploratory study, a new hypothesis can be formulated for experimental research. During interpretation, unconnected, isolated facts should not be discarded, but should be explained properly. Interpretation leads to the establishment of some explanatory concepts arising out of the connection between the underlying processes and principles, and the observed facts from a working model. A researcher’s task is to identify and disengage such principles and processes. Interpretation can also provide a theoretical conception, which can be the basis of further researcher and new knowledge. Thus, continuity in research can be established and the quest for knowing the unknown can be sustained.
Prerequisites for good interpretation: some guidelines
— While drawing inferences from the analysis of data, the researcher has to ensure that the inferences are free from any biases and mistakes that may arise due to both subjective and objective factors. This can be minimised by: checking whether (a) the data are appropriate, trustworthy and adequate for drawing inferences b) the data reflect good homogeneity and (c) proper analysis has been done through statistical methods.
— The researcher should also check for personal bias (subjective element) while interpreting the results. There are so many pitfalls that have to be avoided while observing and interpreting the results. Some of them are: stereotyping (conforming with existing results), preoccupation with set results, projecting his own views on the subject, snap judgements, lack of appreciation for others’ feelings, prejudicial treatment and so on. The researcher must remain vigilant about all such things so that false generalisations may not take place. He should be well-equipped with statistical measures and must know their correct use for drawing inferences concerning his study.
— The researcher must always keep in view that the task of interpretation is very much intertwined with analysis and cannot be separated. He should take precautions about the reliability of data, computational checks, validation and comparison of results.
— The researcher should also pay attention to the hidden factors underlying the results. Broad generalisations should be avoided because the coverage may be restricted to a particular time, area and conditions.
— Originality and creativity are critical in interpreting the results. While linking the relationship between theoretical orientation and empirical observation, the researcher has to make use of his originality and creativity in developing concepts and models. He must pay special attention to this aspect while engaged in the task of interpretation.
6. Summary: It is a generally practice to conclude the report with a very brief summary. In business reports, it is called an executive summary. Here, all the aspects of the research report are given in capsule form.
7. Reference material: The listing of reference material comes at the end of any research report. Appendices with all technical data such as questionnaires, sample information, mathematical derivations etc. should be included at the end. The bibliography, listed in alphabetical order, should be added in the last section. Similarly, the researcher has to prepare an index (an alphabetical listing of names, places and topics along with the page numbers in the book or report in which they are mentioned). That should invariably be given at the end of the report.
8. Other considerations:
Use of quotations: The appropriate use of quotations will enrich the effective presentation of research reports. Quotations should be placed within quotation marks and double-spaced. In case the quotation is lengthy, it can be typed in single space and indented at least half an inch to the right of the normal text margin.
Punctuation and abbreviations: The researcher has to take care to check punctuation marks such as commas, full stops, colons, semicolons etc. these punctuation marks can be checked and verified in listing the bibliography, references, citations, documentations etc. For example, in listing the reference, the author’s name is followed by a comma. After the comma, the title of the book is given; the article (such as ‘a’, ‘an’, ‘the’ etc.) is omitted and only the first word, proper nouns and adjectives are capitalised. A comma follows the title. Information concerning the edition is given next. This entry is followed by a comma. The place of publication is then stated; it may be mentioned in an abbreviated form. For example, London is abbreviated as Lond, New York as N.Y. and so on.
REFERENCING IN THE TEXT
The Harvard system, which we have adopted in this book, uses the author’s name and data of publication to identify cited documents within the text. For example: • It has been shown that… (Saunders, 1993). • When referring generally to work by different authors on the subject, place the authors in alphabetical order: (Baker, 1991; Lewis, 1991; Thornhill, 1993). • When referring to dual authors: (Saunders and Cooper, 1993). • When there are more than two authors: (Bryce et al., 1991). • For corporate authors, for instance a company report: (Hanson Trust Plc, 1990). • For publications with no obvious author; for example an employment gazette: (Employment Gazette, 1993).
• When referring to different publications by the same author, the works should be arranged according to date in ascending order: (Lewis, 1989, 1991). • To differetiate between publications by the same author in the same year use a, b, c etc., (Forster, 1991a). Make sure that this is consistent throughout the research project and corresponds with the bibliography. • To reference an author referred to by another author where the original publication has not been read: (Granovetter, 1974, cited by Saunders, 1993). In this case the author who cites and the original document’s author should both appear in the bibliography.
REFERENCING IN THE BIBLIOGRAPHY
In the bibliography, the referenced publications are listed alphabetically by author’s name. All the author’s surnames and initials are listed in full. If there is more than one work by the same author, these are listed chronologically. • An example of a reference to a book would be: Saunders, M.N.K. and Cooper, S.A., (1993) Understanding Business Statistics, London, DP Publciations. • A reference to a book other than the first edition would be: Morris, C., (1993) Quantitative Approaches to Business Studies (3rd ed.,) London, Pitman Publishing. • A reference to a book with no obvious author would be: Department of Trade and Industry (1992). The Single Market: Europe open for Professions, UK Implementation, London, HMSO. • A reference to a particular chapter in a book would be: Robsoon, C., (1993) Real World Research, Oxford, Blackwell, Chapter 3.
• A reference to a particular chapter in an edited book would be: Graig, P.B. (1991) ‘Designing and Using Mail Questionnaires’, in Smith, N.C. and Dainty, P. (eds) The Management Research Handbook, London, Routledge, pp. 181-89. • An example of a reference to an article in a journal (in this example volume 20, part 6 would be): Brewster, C. and Bournois, F., (1992) ‘uman Resource Management: A European Perspective’, Personnel Review, 20: 6, 4-13.
FOOTNOTES
Researchers must insert footnotes in the appropriate places. These fulfil two purposes: • The proper identification of materials used in quotations in the report. • The footnotes provide supplementary value to the main body of the text. Based on the footnotes’ description, one can easily refer the cross references, citation of authorities and sources, acknowledgement and elucidation or explanation of a point of view. The recent trend is to avoid footnotes. Some people feel that they enhance display of the scholarship of the researchers. But it is neither an end nor a means of displaying scholarship.
Referencing in the Text
When using footnotes, a number shows references within the research report. For example: ‘Recent research1 indicates that…’ This number refers directly to the references.
Referencing in the reference
These list the referenced publications sequentially in the order they are referred to in your research report. This can be useful as it enables you to include comments and footnotes as well as references. • The layout of individual references in the bibliography is the same as that for the Harvard system. • If you find that your refer to the same item more than once you can use standard bibliographic abbreviations to save repeating the references in full. • The publications referred to only include those you have cited in your report. They should therefore be headed ‘References’ rather than ‘Bibliography’ as shown below: Abbreviation Explanation Op. cit. (opere ciato) Meaning, in the work cited. This refers to a work previously referenced and so you must give the author and date and if necessary the page number, like: Robson (1993) op. cit. pp. 23-4. Loc. Cit. (loco ciato) Meaning, in the place cited. This refers to the same page of a work previously referenced. So you must give the author and date, like: Robson (1993) loc. Cit. Ibid. (ibidem) Meaning, the same work given immediately before. This refers to the work referenced immediately before and replaces all details of the previous reference other than a page number if necessary.
PRECAUTIONS IN PREPARING REPORT
1. A report is an important way of communicating research findings to others. A good research report is one that does this task efficiently and effectively. Hence, the following precautions must be taken while preparing it: 2. While determining the length of the report, one should keep in mind the fact that it should be long enough to cover the subject but short enough to maintain interest. In fact, report writing should not be a means to learning more and more about less and less. 3. Abstract terminology and technical jargon should be avoided. The report should be able to convey the matter as simply as possible. In other words, this means that reports should be written in an objective style in simple language, avoiding expressions such as ‘it seems’, ‘there may be’ and the like. 4. Readers are often interested in acquiring quick knowledge of the main findings and as such the report must make the findings readily accessible. For this purpose, charts, graphs and statistical tables may be used for the various results in the main report in addition to summaries of important findings. 5. The layout of the research should be well thought out. It must be appropriate and in accordance with the objective of the research problem. 6. The report should be free from grammatical mistakes and must be prepared strictly according to the rules of composition of research reports such as the use of quotation marks, footnotes, documentation, punctuation and use of abbreviations in footnotes and the like.
7. The report must present a logical analysis of the subject matter. It must reflect a structure wherein the different pieces of analysis relating to the research problem fit well. 8. A research report should show originality and should necessarily be an attempt to solve some intellectual problem. It must contribute to the solution of a problem and must add to the store of knowledge. 9. Towards the end, the report must also state the policy implications of the problem under consideration. It is usually considered desirable for a report to make a forecast of the probable future of the subject concerned and indicate the kind of research that still needs to be done in that particular field. 10. Appendices should be enlisted for all the technical data in the report. 11. Bibliography of sources consulted is a must for a good report. 12. An index is also considered an essential part of a good report and as such must be prepared and appended at the end. 13. The report must have an attractive appearance. It should be neat and clean, whether typed or printed. 14. Calculated confidence limits must be mentioned and the various constraints experienced in conducting the research study stated. 15. The objective of the study, the nature of the problem, the methods employed and the technique of analysis adopted must all be stated at the beginning of the report in the form of an introduction.
EVALUATION OF A REPORT— SOME CONSIDERATIONS
The evaluator has to give a report on the thesis or dissertation evaluated by him. There is no standard format for this report. The evaluator is expected to comment on (1) the importance of the study; (2) soundness of the methodology; (3) quality of analysis; (4) significance of the findings, and (5) format and style of presentation. It is not necessary for him to summarise the contents of the thesis. But he must point out the strengths and weaknesses of the work. He should give his final recommendation— whether the thesis should be accepted or rejected— in clear terms. If the thesis needs revision and re-submission, the evaluator should recommended that these be done. In this case, he should offer specific suggestions for revision.
Evaluation Criteria
There is no universally accepted set of standards for evaluating a research report. However, the following checklist will serve as a general guideline for a critical evaluation or analysis of a research report:
1. The appropriateness of the title
(a) Does it exactly indicate the core of the study? (b) Is it clear and concise? (c) Does it promise no more than what the study can provide?
2. Importance of the problem
(a) Is the research problem topically important? (b) Is it socially relevant in terms of its contribution to knowledge and/or solution to the burning problem of the day? (c) Are the research questions (objectives) clearly stated? (d) Are they specific and related to the selected theme?
(e) Are the hypotheses pertinent to the research questions? (f) Are they clearly stated and testable? (g) Are the concepts in the title, objectives and hypotheses operationally defined? (h) Are the operational definitions valid and reasonable? (i) Are assumptions and limitations stated? (j) Does the problem formulation reflect the researcher’s mastery of the subject matter of the study?
3. Review of related literature and earlier studies
(a) Is this review covered adequately? (b) Is it well-organised and documented? (c) Has the research gap been identified? (d) Does the present study fill in the gap?
4. Soundness of the methodology:
(a) Are the type of research and sources and methods of data collection described in detail? (b) Are the above methods appropriate to the problem under study and the respondents? (c) Is the research design appropriate to test adequately the hypothesised relationships? (d) Is the sampling design appropriate and described in detail? (e) Are the methods adopted for sampling scientific? (f) Is the sample size adequate? (g) Are relevant variables recognised, defined, inter-related and measured? (h) Are the data-gathering instruments appropriate? (i) Are the validity and reliability of the instruments established? (j) Are the details of the methodology adequate for replicability?
5. Data analysis
(a) Is the analysis objective and deep? (b) Is the statistical treatment appropriate? (c) Is appropriate use made of tables and charts? (d) Is their format proper and complete? (e) Have the hypotheses been adequately tested? (f) Is the analysis of data relationship logical and perceptive? (g) Is the significance of statistical results tested properly? (h) Are the statistical results interpreted and presented without any bias?
6. Contribution of the study and conclusions and recommendations
(a) Are the findings of the study stated clearly? (b) Are the findings generalisable? (c) Does the study test a theory or develop a new theory, a new model or new tool or contribute to methodology in any other way? (d) Are the conclusions logical and justified by the empirical evidence? (e) Are the implications of the results for policy and action explicitly pointed out? (f) Do the recommendatiosn flow from the findings? (g) Are the recommendatiosn specific and practical?
7. Presentation
(a) Is the format of the report appropriate? (b) Does the report have headings and sub-headings that facilitate reading and understanding it? (c) Is the chapter scheme based on the objective of the study?
(d) Is the textual discussion clear, concise and convincing? (e) Is the style of writing smooth and simple? (f) Is it free from spelling and grammatical errors? (g) Do the footnotes/references contain full details of the sources? (h) Is the bibliography exhaustive?
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