This document provides an overview of key concepts related to research design. It discusses the meaning and importance of research design, as well as classifications including exploratory, descriptive, diagnostic, and hypothesis-testing research designs. Important concepts covered include dependent and independent variables, extraneous variables, control, research hypotheses, experimental and control groups, and treatments. Experimental designs such as completely randomized, randomized block, Latin square, and factorial designs are also introduced. The document provides a framework for understanding different types of research design and their applications.
Research, Types and objectives of research Bindu Kshtriya
This presentation is regarding the basics of research method, about the voyage of research, steps included in research, types of research including descriptive, analytical, applied, fundamental, quantitative, qualitative conceptual, empirical historical conclusion oriented etc
In this ppt you can find the materials regarding Significance of Research/Importance of Research
Subscribe to Vision Academy for Video assistance https://www.youtube.com/channel/UCjzpit_cXjdnzER_165mIiw
Research, Types and objectives of research Bindu Kshtriya
This presentation is regarding the basics of research method, about the voyage of research, steps included in research, types of research including descriptive, analytical, applied, fundamental, quantitative, qualitative conceptual, empirical historical conclusion oriented etc
In this ppt you can find the materials regarding Significance of Research/Importance of Research
Subscribe to Vision Academy for Video assistance https://www.youtube.com/channel/UCjzpit_cXjdnzER_165mIiw
Methods of data collection (research methodology)Muhammed Konari
Included all types of data collection.Includes primary data collection and secondary data collection. Described each and every classification of Data collections which are included in KTU Kerala.
Characteristics of a Good Sample
Representativeness
Absence of sampling error
Economically viable
Generalized and applicable
Goal oriented
Proportional
Randomly Selected
Actual information provider
Practical
Methods of data collection (research methodology)Muhammed Konari
Included all types of data collection.Includes primary data collection and secondary data collection. Described each and every classification of Data collections which are included in KTU Kerala.
Characteristics of a Good Sample
Representativeness
Absence of sampling error
Economically viable
Generalized and applicable
Goal oriented
Proportional
Randomly Selected
Actual information provider
Practical
Prof. Mridul M. Panditrao, from his University/ medical College days, gives tips on how to write your synopsis for your dissertation after you have registered and started your MD/ MS training programme. he also gives ideas/ steps to come up with a well constructed synopsis. Very useful for the first year MD/ MS PG students
The slides will help you in knowing the components of research design in brief what is research design, components of research design, differnt types of research design
: A Research design is a logical and systemic plan prepared for directing research. It specifies the objectives of the study, the methodology and techniques to be adopted for achieving the objectives. It constitutes the blue print for the collection, measurement and analysis of data. It is the plan, structure and strategy of investigation conceived so as to obtain answers to research questions. A research design is the program that guides the investigator in the process of collecting, analyzing and interpreting observations.
The research approach indicates the basic procedure for conducting research.
Research approach is the technique which the researcher uses to structure a study in order to gather and analyze information relevant to the research question .
Chapter 1 A Primer of the Scientific Method and Relevant Components.docxketurahhazelhurst
Chapter 1 A Primer of the Scientific Method and Relevant Components
The primary objective of this book is to help researchers understand and select appropriate designs for their investigations within the field, lab, or virtual environment. Lacking a proper conceptualization of a research design makes it difficult to apply an appropriate design based on the research question(s) or stated hypotheses. Implementing a flawed or inappropriate design will unequivocally lead to spurious, meaningless, or invalid results. Again, the concept of validity cannot be emphasized enough when conducting research. Validity maintains many facets (e.g., statistical validity or validity pertaining to psychometric properties of instrumentation), operates on a continuum, and deserves equal attention at each level of the research process. Aspects of validity are discussed later in this chapter. Nonetheless, the research question, hypothesis, objective, or aim is the primary step for the selection of a research design.
The purpose of a research design is to provide a conceptual framework that will allow the researcher to answer specific research questions while using sound principles of scientific inquiry. The concept behind research designs is intuitively straightforward, but applying these designs in real-life situations can be complex. More specifically, researchers face the challenge of (a) manipulating (or exploring) the social systems of interest, (b) using measurement tools (or data collection techniques) that maintain adequate levels of validity and reliability, and (c) controlling the interrelationship between multiple variables or indicating emerging themes that can lead to error in the form of confounding effects in the results. Therefore, utilizing and following the tenets of a sound research design is one of the most fundamental aspects of the scientific method. Put simply, the research design is the structure of investigation, conceived so as to obtain the “answer” to research questions or hypotheses.The Scientific Method
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2. CONTENTS
Meaning and Importance of Research Design
Classifications of Research Design
The Research Process
Variables
Hypothesis
Errors Affecting Research Design
Measurements and Scaling
Reliability and Validity Test of Research
Pilot Test
Field Study
Issues Governing Research Design 2
ResearchMethodology-Unit2
3. MEANING OF RESEARCH DESIGN
Research Design is the preparation of the design of the
research project.
It constitutes the blueprint for the collection,
measurement and analysis of data.
Design decisions revolve around the following
questions:
What is the study about?
Why is the study being made?
Where will be the study be carried out?
What type of data is required?
Where can the required data be found?
What periods of time will the study include?
What will be the sample design?
What techniques of data collection will be used?
How will the data be analyzed?
In what style will the report be prepared?
3
ResearchMethodology-Unit2
4. RESEARCH DESIGN – BREAK DOWN
The sampling design
Deals with the method of selecting items to be observed for
the given study.
The observational design
Relates to the conditions under which the observations are
to be made.
The statistical design
Concerns with the question of how many items are to be
observed and how the information and data gathered are to
be analyzed.
The operational design
Deals with the techniques by which the procedures
specified in the sampling, statistical and observational
designs can be carried out.
4
ResearchMethodology-Unit2
5. RESEARCH DESIGN – MINIMUM ESSENTIALS
A clear statement of the research problem.
Procedures and techniques to be used for
gathering information.
The population to be studied.
Methods to be used in processing and analyzing
data.
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ResearchMethodology-Unit2
6. FEATURES OF A GOOD DESIGN
A good design is often characterized by adjectives like flexible,
appropriate, efficient, economical and so on.
Generally, the design which minimizes bias and maximizes the
reliability of the data collected and analyzed is considered a good
design.
The design which gives the smallest experimental error is
supposed to be the best design in many investigations.
Similarly, a design which yields maximum information and
provides an opportunity for considering many different aspects of
a problem is considered most appropriate and efficient design with
respect to many research problems.
Thus, the question of good design is related to the purpose or
objective of the research problem and also with the nature of the
problem being studied.
One single design cannot serve the purpose of all types of
research problems.
6
ResearchMethodology-Unit2
7. IMPORTANT CONCEPTS RELATING TO
RESEARCH DESIGN
1. Dependent and Independent Variables
2. Extraneous Variable
3. Control
4. Confounded Relationship
5. Research Hypothesis
6. Experimental and Non-experimental Hypothesis-
Testing Research
7. Experimental and Control Groups
8. Treatments
9. Experiment
10. Experimental Unit(s)
7
ResearchMethodology-Unit2
8. IMPORTANT CONCEPTS RELATING TO
RESEARCH DESIGN
Dependent and Independent Variables
Variable: A concept which can take on different quantitative
values. For example, concepts like weight, height, income
etc.
Continuous variables – phenomena which can take on
quantitatively different values even in decimal points. For
example, age.
Discontinuous or Discrete variables – If some variables can
be only expressed in integer values. For example, no. of
children.
If one variable depends upon or is a consequence of the
other variable, it is termed as dependent variable, and the
variable that is antecedent to the dependent variable is
termed as independent variable. For example,
Age → Height, Smoking → Cancer (Height and Cancer are
dependent variables whereas Age and Smoking are independent
variables.
8
ResearchMethodology-Unit2
9. IMPORTANT CONCEPTS RELATING TO
RESEARCH DESIGN
Extraneous variable
Independent variables that are not related to the
purpose of the study, but may affect the dependent
variable are termed as extraneous variables.
Whatever effect is noticed on dependent variable as a
result of extraneous variable(s) is technically
described as ‘experimental error’.
A study must always be so designed that the effect
upon the dependent variable is attributed entirely to
the independent variable(s), and not to some
extraneous variable or variables.
9
ResearchMethodology-Unit2
10. IMPORTANT CONCEPTS RELATING TO
RESEARCH DESIGN
Control
One important characteristic of a good research
design is to minimize the influence or effect of
extraneous variable(s).
The technical term ‘control’ is used when we design
the study minimizing the effects of extraneous
independent variable(s).
In experimental researches, the term ‘control’ is used
to refer to restrain experimental conditions.
Confounded relationship
When the dependent variable is not free from the
influence of extraneous variable(s), the relationship
between the dependent and independent variables is
said to be confounded by an extraneous variable(s). 10
ResearchMethodology-Unit2
11. IMPORTANT CONCEPTS RELATING TO
RESEARCH DESIGN
Research hypothesis
When a prediction or a hypothesis relationship is to be
tested by scientific methods, it is termed as research
hypothesis.
The research hypothesis is a predictive statement that
relates an independent variable to a dependent
variable.
Usually, a research hypothesis must contain at least,
one independent and one dependent variable.
For example, “e-Learning enhances teaching learning
experience”. Here, the dependent variable is “teaching
learning experience”, whereas “e-Learning” is the
independent variable. 11
ResearchMethodology-Unit2
12. IMPORTANT CONCEPTS RELATING TO
RESEARCH DESIGN
Experimental and non-experimental hypothesis-
testing research
When the purpose of the research is to test a research
hypothesis, it is termed as hypothesis-testing
research.
It can be both of experimental design type or non-
experimental design type.
Research in which the independent variable(s) are
manipulated is termed as ‘experimental hypothesis-
testing research’ and a research in which they are not
manipulated is called ‘non-experimental hypothesis-
testing research’.
12
ResearchMethodology-Unit2
13. IMPORTANT CONCEPTS RELATING TO
RESEARCH DESIGN
Experimental and control groups
In an experimental hypothesis-testing research when a
group is exposed to usual conditions, it is termed as
‘control group’, but when a group is exposed to some
novel or special condition, it is termed as ‘experimental
group’.
Treatments
The different conditions under which experimental and
control groups are put are usually referred to as
‘treatments’.
13
ResearchMethodology-Unit2
14. IMPORTANT CONCEPTS RELATING TO
RESEARCH DESIGN
Experiment
The process of examining the truth of a statistical
hypothesis, relating to some research problem is known
as an experiment.
For example, we can conduct an experiment to
examine the usefulness of a newly developed drug.
Experiments can be of two types viz., absolute
experiment and comparative experiment.
Absolute experiment – Determining the impact of a
fertilizer on the yield of a crop.
Comparative experiment – Determining the impact of
one fertilizer as compared to the impact of some other
fertilizer. 14
ResearchMethodology-Unit2
15. IMPORTANT CONCEPTS RELATING TO
RESEARCH DESIGN
Experimental unit(s)
The pre-determined plots or blocks, where different
treatments are used, are known as experimental units.
Such units must be selected (defined) very carefully.
15
ResearchMethodology-Unit2
16. CLASSIFICATION OF RESEARCH DESIGNS
Different research designs can be conveniently
described if we categorize them as:
Research Design in case of exploratory research
studies
Research Design in case of descriptive and diagnostic
research studies
Research Design in case of hypothesis-testing research
studies
16
ResearchMethodology-Unit2
17. CLASSIFICATION OF RESEARCH DESIGNS
Research Design in case of exploratory research
studies
Exploratory research studies are also termed as
formulative research studies.
The main purpose of such studies is to formulate a
problem for more precise investigation or develop the
working hypothesis from an operational point of view.
The major emphasis in such studies is on the discovery
of ideas and insights.
The research design must be flexible enough to provide
opportunity for considering different aspects of the
problem under study.
17
ResearchMethodology-Unit2
18. RESEARCH DESIGN IN CASE OF
EXPLORATORY RESEARCH STUDIES
Generally, the following three methods are used in
the context of research design:
The survey of concerning literature
The experience survey
The analysis of ‘insight-stimulating’ examples
18
ResearchMethodology-Unit2
19. RESEARCH DESIGN IN CASE OF DESCRIPTIVE
AND DIAGNOSTIC RESEARCH
Descriptive research studies are those studies which are
concerned with describing the characteristics of a
particular individual, or of a group, whereas diagnostic
research studies determine the frequency with which
something occurs or its association with something else.
Both descriptive and diagnostic studies share common
requirements that the researcher must be able to define
clearly, what he wants to measure and must find
adequate methods for measuring it along with a clear
cut definition of ‘population’ he wants to study.
The research design must make enough provision for
protection against bias and must maximize reliability,
with due concern for the economic completion of the
research study.
19
ResearchMethodology-Unit2
20. RESEARCH DESIGN IN CASE OF DESCRIPTIVE
AND DIAGNOSTIC RESEARCH
The design in such studies must be rigid and not
flexible and must focus on:
What the study is about and why it is being made?
What techniques of data gathering will be adopted?
How much material will be needed?
Where can the required data be found and with what
time period should the data be related?
Processing and analyzing the data.
Reporting the findings.
20
ResearchMethodology-Unit2
21. COMPARATIVE STUDY OF RESEARCH DESIGNS IN
EXPLORATORY AND DESCRIPTIVE/DIAGNOSTIC
RESEARCH STUDIES
Research Design Exploratory/Formulati
ve
Descriptive/Diagnosti
c
Overall design Flexible Rigid
Sampling design Non-probability
sampling (purposive or
judgment sampling)
Probability sampling
(random sampling)
Statistical design No pre-planned design
for analysis
Pre-planned design for
analysis
Observational design Unstructured
instruments for
collection of data
Structured or well
thought out instruments
for collection of data
Operational design No fixed decisions
about the operational
procedures
Advanced decisions
about operational
procedures
21
ResearchMethodology-Unit2
22. RESEARCH DESIGN IN CASE OF HYPOTHESIS-
TESTING RESEARCH STUDIES
Hypothesis-testing research studies (generally
known as experimental studies) are those where
the researcher tests the hypotheses of causal
relationships between variables.
Such studies require procedures that will not only
reduce bias and increase reliability, but will permit
drawing inferences about causality.
22
ResearchMethodology-Unit2
23. RESEARCH DESIGN IN CASE OF HYPOTHESIS-
TESTING RESEARCH STUDIES
Basic Principles of Experimental Designs
The Principle of Replication
The experiment should be repeated more than once. Each
treatment is applied to more than one experimental unit.
Replication is introduced in order to increase the precision of a
study; that is to say, to increase the accuracy with which the
main effects and interactions can be estimated.
The Principle of Randomization
This principle provides protection, when we conduct an
experiment, against the effects of extraneous factors by
randomization. The principle instructs us to design or plan the
experiment in such a way that the variations caused by
extraneous factors can all be combined under the general
heading of “chance”. Through the application of the principle of
randomization, we can have a better estimate of the
experimental error. 23
ResearchMethodology-Unit2
24. RESEARCH DESIGN IN CASE OF HYPOTHESIS-
TESTING RESEARCH STUDIES
Basic Principles of Experimental Designs
The Principle of Local Control
Under this principle, the extraneous factor, which is the known source of
variability is made to vary deliberately over as wide a range as necessary
and this needs to be done in such a way that the variability it causes can
be measured and hence eliminated from the experimental error.
The experiment should be planned in such a manner that we can perform a
two-way analysis of variance, in which the total variability of the data is
divided into three components attributed to “treatments”, the “extraneous
factor” and the “experimental error”.
According to the principle, we first divide the field into several
homogeneous parts, known as blocks, and then such block is divided into
parts equal to the number of treatments. Then the treatments are randomly
assigned to these parts of a block.
Blocks are levels at which we hold an extraneous factor fixed, so that we
can measure its contribution to the total variability of the data by means of
a two-way analysis of variance.
Thus, through the principle of local control, we can eliminate the variability
due to extraneous factor(s) from the experimental error.
24
ResearchMethodology-Unit2
25. IMPORTANT EXPERIMENTAL DESIGNS
Experimental design refers to the framework or
structure of an experiment.
Experimental designs can be classified into two
broad categories:
Informal experimental design
Normally, these use a less sophisticated form of analysis
based on the differences in magnitudes.
Formal experimental design
They offer relatively more control and use precise statistical
procedures for analysis.
25
ResearchMethodology-Unit2
26. IMPORTANT EXPERIMENTAL DESIGNS
Informal experimental designs:
Before-and-after without control design
After-only with control design
Before-and-after with control design
Formal experimental designs:
Completely randomized design (C.R. design)
Randomized block design (R.B. design)
Latin square design (L.S. design)
Factorial design
26
ResearchMethodology-Unit2
27. INFORMAL EXPERIMENTAL DESIGNS
Before-and-after without control design
In such a design a single test group or area is selected
and the dependent variable is measured before the
introduction of the treatment.
The treatment is then introduced and the dependent
variable is measured again after the treatment has been
introduced.
The effect of the treatment would be equal to the level
of the phenomenon after the treatment minus the level
of the phenomenon before the treatment.
The main difficulty of such a design is that with the
passage of time, considerable extraneous variations
may be there in its treatment effect. 27
ResearchMethodology-Unit2
28. INFORMAL EXPERIMENTAL DESIGNS
After-only with control design
In this design two groups or areas (test area and control area)
are selected and the treatment is introduced into the test area
only.
The dependent variable is then measured in both the areas at
the same time.
Treatment impact is assessed by subtracting the value of the
dependent variable in the control area from its value in the
test area.
The basic assumption in such a design is that the two areas
are identical with respect to their behavior towards the
phenomenon considered. If this assumption is not true, there
is the possibility of extraneous variation entering into the
treatment effect.
The design is superior to before-and-after without control
design. 28
ResearchMethodology-Unit2
29. INFORMAL EXPERIMENTAL DESIGNS
Before-and-after with control design
In this design two areas are selected and the dependent
variable is measured in both the areas for an identical time-
period before the treatment.
The treatment is then introduced into the test are only, and
the dependent variable is measured in both for an identical
time-period after the introduction of the treatment.
The treatment effect is determined by subtracting the change
in the dependent variable in the control area from the change
in the dependent variable in the test area.
This design is superior to the previous two designs for the
simple reason that it avoids extraneous variation resulting
both from the passage of time and from non-comparability of
the test and control areas.
29
ResearchMethodology-Unit2
30. FORMAL EXPERIMENTAL DESIGNS
Completely randomized design (C.R. Design)
Involves only two principles viz., the principle of
replication and principle of randomization of
experimental designs.
The essential characteristic of this design is that the
subjects are randomly assigned to experimental
treatments or vice-versa.
For example, if we have 10 subjects and if we wish to
test 5 under treatment A and 5 under treatment B, the
randomization process gives every possible group of 5
subjects selected from a set of 10 an equal opportunity
of being assigned to treatment A and treatment B.
One-way analysis of variance (or one-way ANOVA) is
used to analyze such a design.
30
ResearchMethodology-Unit2
31. COMPLETELY RANDOMIZED DESIGN
Two-group simple randomized design
In a two-group simple randomized design, first of all the
population is defined and then from the population, a sample
is selected randomly.
Further, requirement of this design is that items, after being
selected randomly from the population, be randomly assigned
to the experimental and control groups.
Since in the simple randomized design the elements
constituting the sample are randomly drawn from the same
population and randomly assigned to the experimental and
control groups, it becomes possible to draw conclusions on
the basis of samples applicable for the population.
The two groups (experimental and control groups) of such a
design are given different treatments of the independent
variables.
31
ResearchMethodology-Unit2
32. COMPLETELY RANDOMIZED DESIGN
Random replications design
There are two populations in this design. The sample is
taken randomly from the population available for the
study and is randomly assigned to, say, four
experimental and four control groups.
Similarly, sample is taken randomly from the population
available to conduct experiments (because of the eight
groups eight such individuals be selected) and the eight
individuals so selected should be randomly assigned to
eight groups.
Generally, equal number of items are put in each group
so that the size of the group is not likely to affect the
results of the study.
This is an extension of the two-group simple
randomized design.
32
ResearchMethodology-Unit2
33. FORMAL EXPERIMENTAL DESIGNS
Randomized Block Design (R.B. Design)
Improvement over the C.R. design.
In the R.B. design, subjects are first divided into groups,
known as blocks, such that within each group, the
subjects are relatively homogeneous with respect to
some selected variable.
The variable selected for grouping the subjects is one
that is believed to be related to the measures to be
obtained with respect to the dependent variable.
The number of subjects in a given block would be equal
to the number of treatments and one subject in each
block would be randomly assigned to each treatment.
The R.B. design is analyzed by the two-way analysis of
variance (two-way ANOVA) technique. 33
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34. FORMAL EXPERIMENTAL DESIGNS
Latin Squares Design (L.S. Design)
Experimental design very frequently used in agricultural
research.
Factorial designs
Used in experiments where the effects of varying more
than one factor are to be determined.
Can be of two types:
Simple factorial designs (a.k.a. two-factor-factorial design)
Here the effects of varying two factors on the dependent
variable are considered.
Complex factorial designs (a.k.a. multi-factor-factorial design)
Here more than two factors are considered.
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35. MEASUREMENTS AND SCALING TECHNIQUES
Measurements in Research
Measuring the height, weight and other features of a physical
object.
Similarly, we measure abstract concepts when we judge how
well we like a song, a painting or the personalities of our
friends.
By measurement, we mean the process of assigning numbers
to objects or observations, the level of measurement being a
function of the rules under which the numbers are assigned.
Measurement is a process of mapping aspects of a domain
onto other aspects of a range according to some rule of
correspondence.
Some examples: Gender (0 for male and 1 for female, marital
status as 1, 2, 3,4, respectively denoting, single, married,
widowed, divorced). Referred to as nominal data. We cannot
perform any arithmetic operations on nominal data.
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36. MEASUREMENTS AND SCALING TECHNIQUES
Measurements in Research
For example, in those situation, when we cannot do anything
except set up inequalities, we refer to the data as ordinal
data. Hardness property of minerals (1-10) assigned
respectively to talc, gypsum, calcite, fluorite, apatite, fieldspar,
quartz, topaz, saphhire and diamond. We can write 5 > 2 or 6
< 9 but we cannot write 10 - 9 = 5 – 4, because the difference
in hardness between diamond and sapphire is much greater
than between apatite and fluorite.
For example, when we need to form differences in addition to
setting up inequalities, we make use of interval data.
Temperature is an example of interval data.
The another form of data is ratio data, where we can perform
all arithmetic operations. For example, length, height, weight,
volume, area, pressure etc.
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37. MEASUREMENTS AND SCALING TECHNIQUES
Measurement Scales
The most widely used classification of measurement scales
are:
Nominal scale
Ordinal scale
Interval scale
Ratio scale
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38. SOURCES OF ERROR IN MEASUREMENT
The following are the possible sources of error in
measurement:
Respondent
Factors like reluctance, ignorance, fatigue, boredom etc.
Situation
Presence of third-person, non-assurance of anonymity etc.
Measurer
Instrument
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39. TESTS OF SOUND MEASUREMENT
Sound measurement must meet the tests of validity,
reliability and practicality.
Validity refers to the extent to which a test measures
what we actually wish to measure.
Reliability has to do with the accuracy and precision of a
measurement procedure.
Practicality is concerned with wide range of factors of
economy, convenience, and interpretability.
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40. TEST OF VALIDITY
Validity is the most critical criterion and indicates
the degree to which an instrument measures what it
is supposed to measure.
In order to establish the validity of our findings, we
would need to consider three types of validity:
Content validity
Criterion-related validity
Construct validity is the degree to which scores on a
test can be accounted for by the explanatory constructs
of a sound theory.
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41. TEST OF VALIDITY
Content validity
It is the extent to which a measuring instrument provides adequate
coverage of the topic under study. If the instrument contains a
representative sample of the universe, the content validity is good.
Criterion-related validity
Relates to our ability to predict some outcome or estimate the existence of
some current condition. The criterion must possess the following qualities:
Relevance (is relevant if is defined in terms of what we judge as a
proper measure)
Freedom from bias (gives each subject an equal opportunity to score
well)
Reliability (is stable or reproducible)
Availability (information specified by the criterion should be available)
Construct validity is the degree to which scores on a test can be accounted for
by the explanatory constructs of a sound theory.
For determining construct validity, we associate a set of other propositions
with the results received from using our own instrument.
If the measurements on our devised scale correlate in a predicted way with
these other propositions, we can conclude that there is some construct
validity. 41
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42. TEST OF RELIABILITY
A measuring instrument is reliable if it provides consistent
results.
If the quality of reliability is satisfied by an instrument, then
while using it, we can be confident that transient and
situational factors are not interfering.
Two aspects of reliability are:
The stability aspect (consistent results over repeated
experiments)
The equivalence aspect (amount of errors introduced by different
investigators or different samples of items being studied).
Reliability can be improved by:
By standardizing the conditions under which the measurement
takes place.
By carefully designed directions for measurement with no
variation from group to group, by using trained and motivated
persons to conduct the research and also by broadening the
sample of items used.
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43. TEST OF PRACTICALITY
The practicality characteristic of a measuring instrument
can be judged in terms of economy, convenience and
interpretability.
Economy consideration suggests that some trade-off is
needed between the ideal research project and that
which the budget can afford. Other related aspects to
economy include the length and timing of say
questionnaire, interview etc.
Convenience test suggests that the measuring
instrument should be easy to administer. For instance, a
questionnaire, with clear instructions versus the one
lacking such instructions.
Interpretability consideration is specially important
when persons other than the designers of the test are to
interpret the results.
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44. TECHNIQUE OF DEVELOPING MEASUREMENT
TOOLS
The technique of developing measurement tools
involves a four-stage process:
Concept development
Specification of concept dimensions
Selection of indicators
Formation of index
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45. SCALING
In research, we often face the measurement problem,
specially when the concepts to be measured are
complex and abstract and we do not possess the
standardized measurement tools.
Scaling describes the procedures of assigning numbers
to various degrees of opinion, attitude and other
concepts.
Scale Classification Bases
Subject orientation
Response form (Categorical versus Comparative)
Degree of subjectivity
Scale properties (Nominal, Ordinal, Interval and Ratio)
Number of dimensions
Scale construction techniques 45
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46. SCALE CONSTRUCTION TECHNIQUES
Following are the five main techniques by which
scales can be developed:
Arbitrary approach
Consensus approach
Item analysis approach
Cumulative scales
Factor scales
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47. IMPORTANT SCALING TECHNIQUES
Some important scaling techniques often used in
research:
Rating scales
Involves qualitative description of a limited number of aspects of a
thing or traits of a person.
When we use rating scales (or categorical scales), we judge an
object in absolute terms against some specified criteria, i.e., we
judge properties of objects without reference to other similar
objects.
The ratings may be of the form – “like , dislike”, “above average,
average, below average”, or other classifications with more
categories such as “like very much, like some what, neutral,
dislike some what, dislike very much”, “excellent, good, average,
below average, poor”, “always, often, occasionally, rarely, never”
and so on.
There is no specific rule as to whether use a two-points or a
three-points or a scale with much more points.
The more points on a scale provide an opportunity for greater
sensitivity of measurement. 47
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48. IMPORTANT SCALING TECHNIQUES
Rating scale may be of two types:
The graphic rating scale
Quite simple and hence used widely in practice.
Various points are usually put along the line to form a continuum
and the rater indicates his/her rating by simply making a mark at
the appropriate point on a line that runs from one extreme to
another.
The itemized rating scale
Also known as numerical scale and presents a series of
statements from which a respondent selects one as best
reflecting his/her evaluation.
Three types or errors can occur with rating scales –
the error or leniency, the error of central tendency and
the error of hallo effect.
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49. IMPORTANT SCALING TECHNIQUES
Ranking scales
Under ranking or comparative scales, we make relative
judgments against other similar objects.
The respondents under this method directly compare two
or more objects and make choice about them.
There are two generally used approaches of ranking
scales, viz.,
Method of paired comparison
Under it, the respondent can express his/her attitude by making a
choice between two objects, say, between a new flavor of soft
drink and an established brand of drink. But when there are more
than two stimuli to judge, the number of judgements required in a
paired comparison is given by the formula:
N = n (n – 1) / 2, where N = number of judgements, n = number of
stimuli or objects to be judged.
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50. IMPORTANT SCALING TECHNIQUES
Ranking scales
Method of ranked order
Under this method of comparative scaling, the respondents are
asked to rank their choices.
This method is easier and faster than the method of paired
comparisons.
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51. SCALE CONSTRUCTION TECHNIQUES
Different scales for measuring attitudes of people
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Approach Scales
1. Arbitrary approach Arbitrary scale
2. Consensus Differential (such as Thurstone
Differential scale)
3. Item analysis approach Summated scales (such as
Likert Scale)
4. Cumulative scale approach Cumulative scales (such as
Guttman’s Scalogram)
5. Factor analysis approach Factor scales (such as Osgood’s
Semantic Differential, Multi-
dimensional Scaling etc.)