Cognitive Ability PDF

Summary

This document provides an overview of cognitive ability assessment in educational contexts. It covers different types of tests, including tests of achievement, ability, and intelligence, as well as various theoretical perspectives on intelligence. The document also includes information about the Stanford-Binet intelligence scales and the Wechsler scales.

Full Transcript

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Section Eight: Assessment in Education - Part One: Cognitive Ability OL

Psychology 4360
Psychological Assessment

Section 8: Assessment in Education Contexts
Cognitive Ability

(text material from Hogan Ch. 8 Cognitive Abilities: Individual Tests; Ch.
Cognitive Abilities: 9 Group Tests)

(Ignore US data, legislation.)

You are all experts in psychological assessment from the perspective of a learner in educational
contexts. Use that experience to facilitate your understanding of the concepts in this section.

A. Let me first make some distinctions among types of tests common in education. Recognize
that while the terms make it seem that these types of tests are distinctly different from each other,
we’ll discover that their characteristics overlap considerably. It’s best to think of these key terms
as representing a continuum of ability through to achievement. Here are some definitions which
emphasize the differences among them, however.

1. Tests of Achievement: measure learning accomplishment in specific conceptual or
skill areas, following a program of instruction in these areas.
2. Tests of Ability or Aptitude: estimate one’s capacity for learning, usually something
specific. Think “mechanical” or “clerical” aptitude as examples. A newer
conceptualization includes a general Cognitive Ability tests for which are not
necessarily distinguishable from
3. Tests of Intelligence: measure a more general ability to learn from experience,
solve problems, and use knowledge to adapt to new situations, thereby reflecting the
capacity for goal-directed adaptive behaviour.

And here is a figure which shows them along the continuum.

See Figure 11.1 Hogan p. 308

We can distinguish Intelligence from Ability or Aptitude by its being the most general among
them. We’ll start at this most general end of the continuum to consider Intelligence.

B. Intelligence

Let’s start with a quick history:
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Section Eight: Assessment in Education - Part One: Cognitive Ability OL

Video: Intelligence2 https://www.youtube.com/watch?v=pmg2NEL7390

What is intelligence?
1. Intelligence has been a focus of interest and study for a very long time. For example, Galton
(1883) saw intelligence as comprised of one’s sensory abilities which might include: speed of
mental processing, perceptual speed, and reaction time. Some more recent investigators would
say that purely physiological measures like blood glucose consumption and brain size are the
marks of intelligence.

Alfred Binet said this:

“Intelligence is the tendency to take and maintain a definite direction, the capacity to
make adaptations for the purpose of attaining a desired end and the power of autocriticism.”

What cognitive factors would these involve predominantly?

(purposive behavioural orientation, ability to initiate and sustain, flexibility to respond to
feedback, capacity to engage in critical evaluation of one’s strategies)

Wechsler (1958) defined intelligence as:

“the aggregate/ global capacity to act purposefully, think rationally, deal effectively with
the environment”.

And, he said, don’t ignore “non-intellective” factors like?

(drive, persistence, values)

Here is a definition of intelligence from American writer F. Scott Fitzgerald:

“The test of a first-rate intelligence is the ability to hold two opposing ideas in mind at
the same time and still retain the ability to function. One should, for example, be able to see
things are hopeless yet be determined to make them otherwise.”

What additional cognitive and intellective factors might be implicated in this version of
intelligence?

2. Factor analytic theories

Recall from Research Methods class that factor analysis is a statistical operation which
identifies the degree to which scores on different measures correlate among themselves.
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How consistently would you find a high score on Text X and a high score on Test Y?
Indeed, we find that scores on multiple tests of ability tend to be similar to a degree.
Spearman (1927) saw this as evidence of a small general intelligence factor which he
named “g”. It is indeed more common for someone testing high on one test of some
ability or other to test high on others. There remains much of intelligence, though, which
is not “g”, according to factor analysis. Spearman regarded “g” as a “general mental
ability factor which underlies all intelligent behaviour”. He thought that there were other
specific abilities which he labelled “s” and error, which he labelled “e”, making up the
remainder of what accounts for how people vary in their intelligence, as measured by
intelligence tests. The 2 Factor theory of intelligence was born. Intelligence equals g + s
+ e.

Others, like Thurstone, were more convinced that there was a complex of “primary
mental abilities” pointing not to “g” but to a collection of independent “intelligences”.

Cattell (1941, 1971) (gave us the sub-components of g: Gc or crystallized intelligence,
represents well-learned acquired skills and knowledge, and Gf designates fluid
intelligence: active mental processing like analysis and problem-solving ability which
doesn’t depend on language and is not the result of specific instruction but typically
involves solving novel problems.

Horn (1989), a colleague of Cattell, identified a number of further distinctions among
intellectual abilities.

Carroll (1997) (Hogan text pp. 260, 261) offered his “three-stratum” theory of cognitive
abilities. The top stratum is g. the second stratum is comprised of sub-abilities and
processes which include Gf, Gc, memory and learning, visual/auditory perception,
retrieval, and speed. The third stratum involved sub-sub-abilities and processes.

See Figure 8.3 p. 210 of the text.

An integrative attempt has led to the Cattell-Horn-Carroll (CHC) model of cognitive
abilities which characterizes the underlying construct of intelligence of the most widely
used intelligence tests.

3. Information processing models

Russian neuropsychologist Aleksandr Luria initiated the development of these models.
He was less concerned with what information was processed than how it was processed.
He postulated:
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a. Simultaneous/parallel processing, where information is synthesized and integrated
all at one time (e.g., social impressions, artistic appreciation), and
b. Successive/sequential processing, where information is analyzed logically, step by
step (e.g., in scientific investigation).

C. Intelligence Testing

1. The Stanford-Binet intelligence scales (Hogan text pp. 225 – 227)

At the turn of the 20th century, Alfred Binet and Theodore Simon were charged with
designing a measure of intelligence which would identify those children in the Paris
school system who were mentally “disabled”, in order to arrange for them remedial
education. The test was based on two key concepts: first, that as children become older,
they become more capable relative to younger children. This is the principle of Age
Differentiation. Since Binet considered intelligence to involve attention, judgment and
reasoning, he chose tasks for this test which would require these particular cognitive
abilities, but his concern was the sum product of these abilities: the principle of General
Mental Ability (g).

a. The first Binet-Simon test, in 1905, comprised thirty items of progressively greater
difficulty.
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The authors determined various cut-off scores, which they thought represented the
capability of children who are of average or below-average intelligence for their age.

b. The 1908 revision introduced “age scales”, items which children of a certain age
should be able to manage correctly were grouped together, age level by age level: the
“mental level” which became the “mental age” (items in the group were passed by 80 –
90% of children at that age). This provided a measure of g.

Here’s an example of one “basket” of small tests which a child aged from 2 years to 4
yrs. and 6 months should be able to do most of correctly on the 1970 version of the test. I
tested a young girl who was almost 4 yrs. old and you’ll see that my client was able to do
all the small tests in the baskets for age 3 and 4, missing just one of them at the 4yrs. and
6 month level.
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The “mental age” of someone is the age at which the child performed most of the basket
of small tests correctly. For example, was this at a typically nine-year-old level? Then,
regardless of the chronological age (CA), the person’s Mental Age was nine. Stern gave
us the “intelligence quotient” or IQ which was the MA divided by the CA. Terman, of
Stanford University, revised the Binet-Simon test in 1916, and it became the Stanford
Binet. He used a larger, but still non-representative sample for standardization, and
defined I.Q. = MA / CA x 100.

Here is my client’s S-B facesheet. You’ll see on the right side that we were in the period
of overlap between the old S-B model of calculating a “ratio IQ” from Mental Age and
Chronological Age, and the later “deviation IQ” approach of comparing her test scores
against normative sample scores for interpretation of IQ.

For practice: Converting the years to months, what is this young girl’s “ratio IQ”?

(59 divided by 48 X 100 = 123)

Compare this to her “deviation IQ” as derived from the normative data in 1972.
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c. The test has been revised a number of times over the years: expanding the age range
with which it could be used, adding non-verbal test items and re-norming the test. In the
1960, revision the old ratio I.Q. was dropped in favour of a “deviation I.Q.” This I.Q.
was a standard score with mean 100 and standard deviation 16 (now 15).

Compare the ratio IQ to her “deviation IQ” as derived from the normative data in 1972.

In 1972, finally non-whites were included in the standardization sample.

d. In the latest (fifth) edition, published in 2003, we now see this organization:

See Table 8.8 p. 226 in our text.

You can see here the influence of the CHC model of intelligence. What G factor
measures do you see?
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i/ Psychometric properties

Standardization: First, there is a larger and more representative sample of persons
aged two to eighty-five. This is meant to be representative of the population of
the U.S. and is stratified according to gender, age, ethnicity, region, and
education.

Reliability: measures of internal consistency, test re-test reliability (five to eight
days) and inter-scorer reliability are satisfactory to strong, typically above.9. The
factor score reliabilities are also at least.9.

Validity: Content-related evidence for validity was generated by expert analysts
and through empirical item analysis. Criterion-related evidence, first of all,
concurrent validity evidence, was established by comparing the Stanford-Binet
5th edition with recent Wechsler scales. Predictive validity was established by
comparing the Stanford-Binet 5 with the Woodcock-Johnson subsequent
achievement tests and the Wechsler Individual Achievement Test (WIAT).
Construct validity was established through factor analytic studies.

ii/ Test administration

The latest Stanford-Binet is still structured using an age scale-type of format, with
“baskets” of tasks with different content, grouped together on the basis of research
which showed them as being at the same level of difficulty, in six increasingly
difficult functional levels. “Routing measures” at the beginning of the test allow
you to determine a suitable “start point” (a “basal” level) – not too easy, not too
hard for the test-taker. One stops at the “ceiling level” when a maximum number
of failures occur.

Like the Wechsler tests we’ll look at next, once you have the raw scores for a
person on all 10 subtests you go to tables for different age ranges and convert the
raw scores to standard scores with a mean of 10 and s.d. of 3. The latest SB5 has
a mean score of 100 and a standard deviation of 15 for the IQ (again, like the
Wechsler tests).

iii/ Scoring and interpretation

The scoring manual is replete with instructions for standardized administration
scoring and interpretation. The most general level of measurement is the full-
scale I.Q.:
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MEASURED IQ RANGE CATEGORY

145 - 160 very gifted or highly advanced
130 - 144 gifted or very advanced
120 - 129 superior
110 - 119 high average
90 - 109 average
80 - 89 low average
70 - 79 borderline impaired or delayed
55 - 69 mildly impaired or delayed
40 - 54 moderately impaired or delayed

2. The Wechsler tests: Wechsler Adult Intelligence Scale (Hogan text pp. 215 – 224)
a. The design of the first Wechsler test was in part a reaction to the limitations of the
Stanford-Binet. It was characterized by adequate adult norms, a point scale format, and
non-verbal performance scale. In a point scale, items tapping the same cognitive domain
are grouped together in graduated degrees of difficulty.

b. Until the latest WAIS-IV, the verbal versus the performance portions of the test were
scored separately and then combined to generate a full-scale I.Q. From the WAIS-III
onward, factor scores were also available for these factors: Verbal Comprehension (VCI)
(estimating Cattell’s Gc), Perceptual Reasoning (PRI) (estimating Cattell’s Gf), Working
Memory (WM), and Processing Speed (PSI).

The individual sub-tests are shown in Table 8.5 p. 217 of your text. The factor or index
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scores are generated from the subtests shown in Table 8.4 on the same page.

c. See the WAIS-IV facesheet on p. 222 of text for an overview of how scores are
organized. From this information you should be able to identify what the underlying
cognitive ability is labelled by the Composite score Indexes: VCI is obvious. PRI only
taps Visual Perceptual Reasoning (think problem-solving), WMI refers to working
memory (from simple attention span to more complex attentional function where you
must hold information in awareness while manipulating it in some way), PSI is speed
with which you can process visual information.

d. Psychometric properties

Standardization: The WAIS-IV has been standardized on a sample in excess of 2000
persons in the U.S.A. in a stratified sample procedure yielding what is regarded as a
representative sample of the general population of that country. Canadian norms have
also been generated and are more appropriately employed in a Canadian context.

Reliability: The split half correlation coefficients were calculated for sub-tests
except the timed/speed tests, which were evaluated for reliability using the test-
retest format. The overall average reliability coefficients range from.90 to.97,
for factors scores and for Full Scale I.Q.

Validity: Concurrent convergent validity with other intelligence tests was
established, with average validity coefficients ranging from.7 into the.9s
Here is an example which shows the correlation between the WAIS-IV and the
WAIS-III factor (composite) scores and Full Scale IQ (FSIQ). (Look at r12)
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Question: If we seek concurrent/discriminant evidence of the WAIS-IV validity, which
WAIS factors should correlate with a measure of AD/HD? Should that correlation be
direct or inverse?

(answer: WMI, inverse).

What do we see in this table? Between which composite scores of the Brown AD/HD test
and the WAIS IV are there the largest inverse correlations?

(WMI and Effort, Memory and Total Brown scores)
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Question: If we were to use the contrasting groups method of seeking validity evidence, what
should we find comparing the intellectually gifted and a control group as far as their FSIQs are
concerned? What do we see?

↑ vs. ↑

e. Test administration

f. Scoring and interpretation

See again the WAIS-IV facesheet on p. 222 of text

The first level of analysis following scoring the sub-tests is to find the scaled score
equivalent to the raw score. Using the manual tables you locate the person’s age group
which gives you these equivalent scaled scores. The normally-distributed standard
scores for any sub-test have a mean of 10 and standard deviation of 3. The summed
scaled scores are combined in the patterns you see here, to generate the Full-Scale I.Q.
and factor scores. These normally-distributed I/Q. and Index scores have a mean of 100
and standard deviation of 15.
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Note on the facesheet that the various composite scores are given a percentile rank based
on the theoretical normal distribution you’ve already studied. Note also the Confidence
Intervals around the obtained scores, based on the tests’ reliability coefficients and
SEmeasure. Familiar territory for you, eh?!

The full-scale I.Q. scores are interpreted according to the following classification:

3. Wechsler Intelligence Scale for Children (text pp. 223,224)

For those of you who expect to work with children, especially in school contexts, you should
acquaint yourselves with the latest WISC. There is a Canadian version which was published in
2014 and is normed on a representative Canadian sample of young people aged six years to
sixteen years, eleven months. As with the WAIS-IV, it generates FSIQ, VCI, PRI and WMI. The
PSI index is now two: Visual Spatial and Fluid Reasoning. It has 21 subtests (up from 13 on the
WISC-IV) including other subtest, process, and index scores intended for additional clinical
uses.
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4. Wechsler Pre-School and Primary Scale of Intelligence - IV (WPPSI-IV)

The latest Canadian edition was published in 2012 and allows testing of children from two years,
six months to 7 years 7 months. It generates the same IQ and Index scores as the WISC-V plus
five additional scale scores tapping different aspects of cognitive ability.

5. Wechsler Abbreviated Scale of Intelligence II (WASI-II) Note that this short form of the
WAIS is suitable for screening only. It includes two sub-scale versions (block design and
vocabulary) and a four sub-test version (block design plus vocabulary plus similarities plus
matrix reasoning).

You’re going to see when we get to the Psychoeducational batteries, especially, that
comprehensive tests of cognitive ability look ever so much like the Intelligence tests we’ve been
considering. There is indeed a confluence among all of these tests of general cognitive ability as
to what comprises this construct. You see how more and more similar the Wechsler scales and
the Stanford Binet have become and you’ll recognize the same components in the Woodcock-
Johnson.

D. Aptitude/Ability tests

Aptitude or Ability tests can be construed in a number of ways but they typically are meant to
estimate one’s capacity for learning, usually something specific. Therefore, they should have
good predictive validity. Where does our “aptitude” for something come from? (innate abilities
and lifelong learning) We would distinguish aptitude from intelligence by considering aptitude to
be more specific than intelligence but not as tied to specific educational content as our
achievement tests.

1. Primary School level

Aptitude tests at this level may be used essentially as an Intelligence test, with subscores
identifying areas of average, below or above ability on different features of cognitive
ability. A widely used instrument is the Woodcock-Johnson IV Test of Cognitive Ability
(text p. 325), a component of the WJIV Psychoeducation Battery.

OH: Test of Cognitive Ability

You see the tests in the top section and the types of cognitive ability which these tests
measure in the next section. You see how similar these abilities are to what we’ve seen in
the intelligence tests?
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A Canadian Test is the CCAT 7. It tests reasoning, specifically:

Go to: https://www.nelson.com/assessment Select Classroom from menu. Future
teachers and school counsellors, psychologists, especially, watch the Intro video on the
CCAT 7 page.

2. Secondary school level

Often aptitude tests at this stage concern what might be a suitable career direction. They
may be used for post-secondary admission purposes. One such test is the Scholastic
Assessment Test (SAT) widely used in the U.S.A. (See text pp. 257-259) Interestingly
for our consideration of ability versus achievement, the original name of the SAT was the
Scholastic Ability Test, but recognizing the role of learning experience on their test, the
name was changed to its current one which was meant to signal that ability and
achievement could not reasonably be separated out. The SAT contains both verbal and
quantitative reasoning tests.

See Table 9.6 in the text (p. 259) for the latest SAT components

When we consider the development of the SAT some important themes emerge which are
relevant to us in Canada. Tests change to reflect changes in what is valued at a particular
time in educational thought as a feature of the culture in general. For example, in the
SAT verbal portion, there has been an increased emphasis on critical reading rather than
simple vocabulary range; in the mathematics portion, there is an increased emphasis on
reasoning versus computation.

Investigations of earlier versions of the SAT revealed that it was actually a poor predictor
of college grades for students in the middle of the range of scores. Question: Why do
you think this might be?
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(non-intellective factors, motivation, life skills, psychological/personal functioning, home
and social life have more of an impact on these students’ college achievement).

SAT scores have been found to correlate with socio-economic status and urban location
of schools attended which continues to raise questions about why. Are these evidence of
construct-irrelevant test bias or the effects of poorer school environments for some young
people versus others? However, the SAT together with cumulative GPA has been found
to have a useful degree of predictive validity regarding ultimate success in college.

3. College level and beyond

To begin with, as you probably are aware, graduate and professional school entrance tests
are ubiquitous and are used to screen out or select students from applicants.

a. Graduate Record Examination (GRE) (text pp. 264 - 269)

This is the test of general scholastic ability, typically used as part of a collection of
applicant information. There are verbal, quantitative, and analytic reasoning components.
In addition, there are achievement tests in twenty majors, including psychology.

Go to www.ets.org Select GRE on the menu at the bottom of the page. Then choose Prepare for
the GRE General Test. Then choose Free GRE General Test Preparation Materials. In the first
paragraph are three choices: Overview of the Verbal Reasoning measure, Overview of the
Quantitative Reasoning measure and Overview of the Analytical Writing measure. Choose one
and see the types of questions included - choose one and try Sample Questions.

The GRE has a mean of 500 and a standard deviation of 100. Test reliabilities are high
(mostly.90+). There is mixed evidence as to the predictive validity of the GRE. As
you’ll see in Table 9.11 of the text (p. 268 - discussed on p. 269) the highest validity
correlation with first year grad school GPA comes with the use of all of the three
components of the GRE plus the undergraduate GPA in a multiple regression.

Researchers have identified a false-negatives problem. Question: What does this mean?

See Figure 5.7 on p. 142 in your text.

(Low-scoring GRE in notable quantities succeed, as far as college GPA, contrary to
prediction.)

Differential prediction of GPA from GRE scores has also been found, for example, House
(1998, as cited in Kaplan and Saccuzzo, 2005) found that the GRE over-predicted GPA
achievement of younger students and under-predicted GPA achievement of older
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students. Question: What might account for this? Remember, we are comparing GPA
outcomes for different groups of students who have the same score on the predictor, the
GRE.

(non-intellective/past achievement factors)

There has been an interesting change in GRE scores over the past decades. There has
been, overall, a decline in the verbal scores and an increase in the quantitative and
analytic scores. Question: How might this be accounted for?

(More ESL students, changes in education policy and therefore focus, socio-cultural
factors?)

Preparation programs for the GRE are as yet unproven in their effects. They are likely
helpful to students who do not have well-developed test-taking skills and for those who
would tend to score lower for other reasons.

c. Other aptitude tests

Other aptitude tests used for admissions/screening according to professions may be seen
in:

Table 9.10 of text p. 265: Examples of Tests Used for Graduate and Professional School
Selection.