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Deck 16: Inference About Correlation Coefficients

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Question
For each of the following cases, give the size of the sample r required for statistical significance:
(a)
For each of the following cases, give the size of the sample r required for statistical significance: (a) one-tailed test; (b) two-tailed test; (c) two-tailed test; (d) two-tailed test; (e) one-tailed test.<div style=padding-top: 35px> one-tailed test;

(b)
For each of the following cases, give the size of the sample r required for statistical significance: (a) one-tailed test; (b) two-tailed test; (c) two-tailed test; (d) two-tailed test; (e) one-tailed test.<div style=padding-top: 35px> two-tailed test;
(c)
For each of the following cases, give the size of the sample r required for statistical significance: (a) one-tailed test; (b) two-tailed test; (c) two-tailed test; (d) two-tailed test; (e) one-tailed test.<div style=padding-top: 35px> two-tailed test;
(d)
For each of the following cases, give the size of the sample r required for statistical significance: (a) one-tailed test; (b) two-tailed test; (c) two-tailed test; (d) two-tailed test; (e) one-tailed test.<div style=padding-top: 35px> two-tailed test;

(e)
For each of the following cases, give the size of the sample r required for statistical significance: (a) one-tailed test; (b) two-tailed test; (c) two-tailed test; (d) two-tailed test; (e) one-tailed test.<div style=padding-top: 35px> one-tailed test.
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Question
You read in a review article: "Milhous (1979) found a significant positive correlation between peer ratings of self-confidence and scores on the Milhous Self Confidence Scale for a large sample of college sorority members."
(a)How might such a statement be misinterpreted by the statistically unsophisticated reader
(b)What does the statement really mean? Be precise in your answer. Use appropriate symbols and statistical terminology
(c)What single piece of additional information would be most necessary to an adequate interpretation of Milhous' results?
Question
The human resources director of a large bank conducts a study to evaluate a particular employment test for possible use in screening prospective applicants for the position of teller. A group of 16 applicants is administered the test, hired, and rated by their supervisors after 6 months on the job. A sample correlation of +.39 is obtained between test scores and supervisors' ratings. Use a significance testing approach to evaluate the sample result ( α\alpha = .05).
Question
(a)Suppose the correlation between two variables is reported as "not significant" for a sample of 980 cases. Is it possible to make an adequate interpretation concerning the true degree of relationship from this information alone without knowing the actual value of r? Explain.
(b)Suppose the correlation between two variables is reported as "significant" for a sample of 980 cases. Is it possible to make an adequate interpretation concerning the true degree of relationship from this information alone without knowing the actual value of r? Explain.
Question
The test of a hypothesis about correlation coefficients is probably most frequently used to inquire whether

A) <strong>The test of a hypothesis about correlation coefficients is probably most frequently used to inquire whether</strong> A) is zero B) is some specified value other than zero C) there is a difference between 's obtained from independent samples D) there is a difference between 's obtained from dependent samples <div style=padding-top: 35px> is zero

B) <strong>The test of a hypothesis about correlation coefficients is probably most frequently used to inquire whether</strong> A) is zero B) is some specified value other than zero C) there is a difference between 's obtained from independent samples D) there is a difference between 's obtained from dependent samples <div style=padding-top: 35px> is some specified value other than zero

C) there is a difference between <strong>The test of a hypothesis about correlation coefficients is probably most frequently used to inquire whether</strong> A) is zero B) is some specified value other than zero C) there is a difference between 's obtained from independent samples D) there is a difference between 's obtained from dependent samples <div style=padding-top: 35px> 's obtained from independent samples

D) there is a difference between <strong>The test of a hypothesis about correlation coefficients is probably most frequently used to inquire whether</strong> A) is zero B) is some specified value other than zero C) there is a difference between 's obtained from independent samples D) there is a difference between 's obtained from dependent samples <div style=padding-top: 35px> 's obtained from dependent samples
Question
<strong> is to the sampling distribution of r as ____________ is to the sampling distribution of the mean.</strong> A) B) C) D) <div style=padding-top: 35px>
is to the sampling distribution of r as ____________ is to the sampling distribution of the mean.

A) <strong> is to the sampling distribution of r as ____________ is to the sampling distribution of the mean.</strong> A) B) C) D) <div style=padding-top: 35px>
B) <strong> is to the sampling distribution of r as ____________ is to the sampling distribution of the mean.</strong> A) B) C) D) <div style=padding-top: 35px>
C) <strong> is to the sampling distribution of r as ____________ is to the sampling distribution of the mean.</strong> A) B) C) D) <div style=padding-top: 35px>
D) <strong> is to the sampling distribution of r as ____________ is to the sampling distribution of the mean.</strong> A) B) C) D) <div style=padding-top: 35px>
Question
Values of r vary more when

A) n is small
B) <strong>Values of r vary more when</strong> A) n is small B) is low C) n is small and is low D) n is small and is high <div style=padding-top: 35px> is low
C) n is small and <strong>Values of r vary more when</strong> A) n is small B) is low C) n is small and is low D) n is small and is high <div style=padding-top: 35px> is low
D) n is small and <strong>Values of r vary more when</strong> A) n is small B) is low C) n is small and is low D) n is small and is high <div style=padding-top: 35px> is high
Question
The problem that makes the inference about correlation coefficients somewhat less straightforward than inference about means is that the sampling distribution of r

A) has an unknown mean
B) has an unknown standard deviation
C) varies in shape according to circumstance
D) is bimodal because r can be negative as well as positive
Question
When <strong>When , the sampling distribution of r is</strong> A) skewed negatively B) skewed positively C) symmetrical D) normal when <div style=padding-top: 35px>
, the sampling distribution of r is

A) skewed negatively
B) skewed positively
C) symmetrical
D) normal when <strong>When , the sampling distribution of r is</strong> A) skewed negatively B) skewed positively C) symmetrical D) normal when <div style=padding-top: 35px>
Question
The sampling distribution of r is most nearly normal when <strong>The sampling distribution of r is most nearly normal when is</strong> A) positive B) negative C) near ±1.00 D) near zero <div style=padding-top: 35px>
is

A) positive
B) negative
C) near ±1.00
D) near zero
Question
A significant correlation indicates a conclusion that

A) <strong>A significant correlation indicates a conclusion that</strong> A) is large B) r is large C) is not zero D) r is not zero <div style=padding-top: 35px> is large
B) r is large
C) <strong>A significant correlation indicates a conclusion that</strong> A) is large B) r is large C) is not zero D) r is not zero <div style=padding-top: 35px> is not zero
D) r is not zero
Question
When n is very large, we may find that

A) the standard error of the sampling distribution cannot be determined
B) large values of r may suggest that we should retain the hypothesis that <strong>When n is very large, we may find that</strong> A) the standard error of the sampling distribution cannot be determined B) large values of r may suggest that we should retain the hypothesis that when it is false C) the sampling distribution departs substantially from a normal distribution D) the correlation coefficient is shown to be significantly different from zero when in fact the true value of is not importantly different from zero <div style=padding-top: 35px> when it is false
C) the sampling distribution departs substantially from a normal distribution
D) the correlation coefficient is shown to be significantly different from zero when in fact the true value of <strong>When n is very large, we may find that</strong> A) the standard error of the sampling distribution cannot be determined B) large values of r may suggest that we should retain the hypothesis that when it is false C) the sampling distribution departs substantially from a normal distribution D) the correlation coefficient is shown to be significantly different from zero when in fact the true value of is not importantly different from zero <div style=padding-top: 35px> is not importantly different from zero
Question
In which of the following cases could the sample r have been any value over a range from rather small to quite large?

A) significant r, <strong>In which of the following cases could the sample r have been any value over a range from rather small to quite large?</strong> A) significant r, B) significant r, C) nonsignificant r, D) any of the above <div style=padding-top: 35px>
B) significant r, <strong>In which of the following cases could the sample r have been any value over a range from rather small to quite large?</strong> A) significant r, B) significant r, C) nonsignificant r, D) any of the above <div style=padding-top: 35px>
C) nonsignificant r, <strong>In which of the following cases could the sample r have been any value over a range from rather small to quite large?</strong> A) significant r, B) significant r, C) nonsignificant r, D) any of the above <div style=padding-top: 35px>
D) any of the above
Question
We can be fairly sure that <strong>We can be fairly sure that is very small in which of the following cases?</strong> A) significant r, B) nonsignificant r, C) nonsignificant r, D) none of the above <div style=padding-top: 35px>
is very small in which of the following cases?

A) significant r, <strong>We can be fairly sure that is very small in which of the following cases?</strong> A) significant r, B) nonsignificant r, C) nonsignificant r, D) none of the above <div style=padding-top: 35px>
B) nonsignificant r, <strong>We can be fairly sure that is very small in which of the following cases?</strong> A) significant r, B) nonsignificant r, C) nonsignificant r, D) none of the above <div style=padding-top: 35px>
C) nonsignificant r, <strong>We can be fairly sure that is very small in which of the following cases?</strong> A) significant r, B) nonsignificant r, C) nonsignificant r, D) none of the above <div style=padding-top: 35px>
D) none of the above
Question
A significant correlation ( α\alpha = .01). is obtained for a sample of 1,000 cases. From this we can infer that

A) <strong>A significant correlation ( \alpha = .01). is obtained for a sample of 1,000 cases. From this we can infer that</strong> A) is probably large B) is not zero C) is not zero but probably is small D) none of the above <div style=padding-top: 35px> is probably large
B) <strong>A significant correlation ( \alpha = .01). is obtained for a sample of 1,000 cases. From this we can infer that</strong> A) is probably large B) is not zero C) is not zero but probably is small D) none of the above <div style=padding-top: 35px> is not zero
C) <strong>A significant correlation ( \alpha = .01). is obtained for a sample of 1,000 cases. From this we can infer that</strong> A) is probably large B) is not zero C) is not zero but probably is small D) none of the above <div style=padding-top: 35px> is not zero but probably is small
D) none of the above
Question
A nonsignificant correlation is obtained for a random sample of 6 cases. From this we can infer that

A) <strong>A nonsignificant correlation is obtained for a random sample of 6 cases. From this we can infer that</strong> A) B) is very small C) does not differ by an important amount from 0 D) none of the above <div style=padding-top: 35px>
B) <strong>A nonsignificant correlation is obtained for a random sample of 6 cases. From this we can infer that</strong> A) B) is very small C) does not differ by an important amount from 0 D) none of the above <div style=padding-top: 35px> is very small
C) <strong>A nonsignificant correlation is obtained for a random sample of 6 cases. From this we can infer that</strong> A) B) is very small C) does not differ by an important amount from 0 D) none of the above <div style=padding-top: 35px> does not differ by an important amount from 0
D) none of the above
Question
If we want to know whether a test is predictive of success according to a given performance criterion, we can be certain that it is to some degree if r between these two variables is

A) +.25
B) +.50
C) +.75
D) without knowledge of n, we cannot be certain in any of these circumstances
Question
To test the hypothesis that <strong>To test the hypothesis that we need to remember that the number of degrees of freedom is</strong> A) n B) C) D) <div style=padding-top: 35px>
we need to remember that the number of degrees of freedom is

A) n
B) <strong>To test the hypothesis that we need to remember that the number of degrees of freedom is</strong> A) n B) C) D) <div style=padding-top: 35px>
C) <strong>To test the hypothesis that we need to remember that the number of degrees of freedom is</strong> A) n B) C) D) <div style=padding-top: 35px>
D) <strong>To test the hypothesis that we need to remember that the number of degrees of freedom is</strong> A) n B) C) D) <div style=padding-top: 35px>
Question
Fisher's <strong>Fisher's is</strong> A) a kind of z score B) a kind of standard score C) a kind of normalized standard score D) none of the above <div style=padding-top: 35px>
is

A) a kind of z score
B) a kind of standard score
C) a kind of normalized standard score
D) none of the above
Question
The standard error of <strong>The standard error of is</strong> A) B) C) D) <div style=padding-top: 35px>
is

A) <strong>The standard error of is</strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>The standard error of is</strong> A) B) C) D) <div style=padding-top: 35px>
C) <strong>The standard error of is</strong> A) B) C) D) <div style=padding-top: 35px>
D) <strong>The standard error of is</strong> A) B) C) D) <div style=padding-top: 35px>
Question
The purpose of the <strong>The purpose of the transformation is to correct for</strong> A) an unknown mean of the sampling distribution of r B) an unknown standard deviation of the sampling distribution of r C) varying shape of the sampling distribution of r D) differing values of n <div style=padding-top: 35px>
transformation is to correct for

A) an unknown mean of the sampling distribution of r
B) an unknown standard deviation of the sampling distribution of r
C) varying shape of the sampling distribution of r
D) differing values of n
Question
The <strong>The transformation yields values of for corresponding values of r which are</strong> A) increasingly larger than r as r becomes larger B) increasingly smaller than r as r becomes larger C) proportionately larger than r D) proportionately smaller than r <div style=padding-top: 35px>
transformation yields values of
<strong>The transformation yields values of for corresponding values of r which are</strong> A) increasingly larger than r as r becomes larger B) increasingly smaller than r as r becomes larger C) proportionately larger than r D) proportionately smaller than r <div style=padding-top: 35px>
for corresponding values of r which are

A) increasingly larger than r as r becomes larger
B) increasingly smaller than r as r becomes larger
C) proportionately larger than r
D) proportionately smaller than r
Question
If the <strong>If the transformation is used to evaluate inference about correlation coefficients, the referent distribution is</strong> A) the normal distribution B) Student's distribution of t C) dependent on the number of degrees of freedom D) a rectangular distribution <div style=padding-top: 35px>
transformation is used to evaluate inference about correlation coefficients, the referent distribution is

A) the normal distribution
B) Student's distribution of t
C) dependent on the number of degrees of freedom
D) a rectangular distribution
Question
Which procedure, if any, does not require the assumption of a normal bivariate distribution?

A) t test of the hypothesis of no correlation
B) estimation of the population correlation coefficient
C) <strong>Which procedure, if any, does not require the assumption of a normal bivariate distribution?</strong> A) t test of the hypothesis of no correlation B) estimation of the population correlation coefficient C) test of the hypothesis of no difference between two correlation coefficients D) the assumption is required for all of the above <div style=padding-top: 35px> test of the hypothesis of no difference between two correlation coefficients
D) the assumption is required for all of the above
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Deck 16: Inference About Correlation Coefficients
1
For each of the following cases, give the size of the sample r required for statistical significance:
(a)
For each of the following cases, give the size of the sample r required for statistical significance: (a) one-tailed test; (b) two-tailed test; (c) two-tailed test; (d) two-tailed test; (e) one-tailed test. one-tailed test;

(b)
For each of the following cases, give the size of the sample r required for statistical significance: (a) one-tailed test; (b) two-tailed test; (c) two-tailed test; (d) two-tailed test; (e) one-tailed test. two-tailed test;
(c)
For each of the following cases, give the size of the sample r required for statistical significance: (a) one-tailed test; (b) two-tailed test; (c) two-tailed test; (d) two-tailed test; (e) one-tailed test. two-tailed test;
(d)
For each of the following cases, give the size of the sample r required for statistical significance: (a) one-tailed test; (b) two-tailed test; (c) two-tailed test; (d) two-tailed test; (e) one-tailed test. two-tailed test;

(e)
For each of the following cases, give the size of the sample r required for statistical significance: (a) one-tailed test; (b) two-tailed test; (c) two-tailed test; (d) two-tailed test; (e) one-tailed test. one-tailed test.
(a).805
(b).404
(c).393
(d).16
(e).05.
2
You read in a review article: "Milhous (1979) found a significant positive correlation between peer ratings of self-confidence and scores on the Milhous Self Confidence Scale for a large sample of college sorority members."
(a)How might such a statement be misinterpreted by the statistically unsophisticated reader
(b)What does the statement really mean? Be precise in your answer. Use appropriate symbols and statistical terminology
(c)What single piece of additional information would be most necessary to an adequate interpretation of Milhous' results?
(a)Misinterpreted as a large or "important" correlation
(b)
(a)Misinterpreted as a large or important correlation (b) was tested and rejected; conclusion: (c)the obtained value of r.
was tested and rejected; conclusion:
(a)Misinterpreted as a large or important correlation (b) was tested and rejected; conclusion: (c)the obtained value of r.
(c)the obtained value of r.
3
The human resources director of a large bank conducts a study to evaluate a particular employment test for possible use in screening prospective applicants for the position of teller. A group of 16 applicants is administered the test, hired, and rated by their supervisors after 6 months on the job. A sample correlation of +.39 is obtained between test scores and supervisors' ratings. Use a significance testing approach to evaluate the sample result ( α\alpha = .05).

from Table G, (one-tailed); retain from Table G, from Table G, (one-tailed); retain (one-tailed); retain from Table G, (one-tailed); retain
4
(a)Suppose the correlation between two variables is reported as "not significant" for a sample of 980 cases. Is it possible to make an adequate interpretation concerning the true degree of relationship from this information alone without knowing the actual value of r? Explain.
(b)Suppose the correlation between two variables is reported as "significant" for a sample of 980 cases. Is it possible to make an adequate interpretation concerning the true degree of relationship from this information alone without knowing the actual value of r? Explain.
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5
The test of a hypothesis about correlation coefficients is probably most frequently used to inquire whether

A) <strong>The test of a hypothesis about correlation coefficients is probably most frequently used to inquire whether</strong> A) is zero B) is some specified value other than zero C) there is a difference between 's obtained from independent samples D) there is a difference between 's obtained from dependent samples is zero

B) <strong>The test of a hypothesis about correlation coefficients is probably most frequently used to inquire whether</strong> A) is zero B) is some specified value other than zero C) there is a difference between 's obtained from independent samples D) there is a difference between 's obtained from dependent samples is some specified value other than zero

C) there is a difference between <strong>The test of a hypothesis about correlation coefficients is probably most frequently used to inquire whether</strong> A) is zero B) is some specified value other than zero C) there is a difference between 's obtained from independent samples D) there is a difference between 's obtained from dependent samples 's obtained from independent samples

D) there is a difference between <strong>The test of a hypothesis about correlation coefficients is probably most frequently used to inquire whether</strong> A) is zero B) is some specified value other than zero C) there is a difference between 's obtained from independent samples D) there is a difference between 's obtained from dependent samples 's obtained from dependent samples
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6
<strong> is to the sampling distribution of r as ____________ is to the sampling distribution of the mean.</strong> A) B) C) D)
is to the sampling distribution of r as ____________ is to the sampling distribution of the mean.

A) <strong> is to the sampling distribution of r as ____________ is to the sampling distribution of the mean.</strong> A) B) C) D)
B) <strong> is to the sampling distribution of r as ____________ is to the sampling distribution of the mean.</strong> A) B) C) D)
C) <strong> is to the sampling distribution of r as ____________ is to the sampling distribution of the mean.</strong> A) B) C) D)
D) <strong> is to the sampling distribution of r as ____________ is to the sampling distribution of the mean.</strong> A) B) C) D)
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7
Values of r vary more when

A) n is small
B) <strong>Values of r vary more when</strong> A) n is small B) is low C) n is small and is low D) n is small and is high is low
C) n is small and <strong>Values of r vary more when</strong> A) n is small B) is low C) n is small and is low D) n is small and is high is low
D) n is small and <strong>Values of r vary more when</strong> A) n is small B) is low C) n is small and is low D) n is small and is high is high
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8
The problem that makes the inference about correlation coefficients somewhat less straightforward than inference about means is that the sampling distribution of r

A) has an unknown mean
B) has an unknown standard deviation
C) varies in shape according to circumstance
D) is bimodal because r can be negative as well as positive
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k this deck
9
When <strong>When , the sampling distribution of r is</strong> A) skewed negatively B) skewed positively C) symmetrical D) normal when
, the sampling distribution of r is

A) skewed negatively
B) skewed positively
C) symmetrical
D) normal when <strong>When , the sampling distribution of r is</strong> A) skewed negatively B) skewed positively C) symmetrical D) normal when
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10
The sampling distribution of r is most nearly normal when <strong>The sampling distribution of r is most nearly normal when is</strong> A) positive B) negative C) near ±1.00 D) near zero
is

A) positive
B) negative
C) near ±1.00
D) near zero
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11
A significant correlation indicates a conclusion that

A) <strong>A significant correlation indicates a conclusion that</strong> A) is large B) r is large C) is not zero D) r is not zero is large
B) r is large
C) <strong>A significant correlation indicates a conclusion that</strong> A) is large B) r is large C) is not zero D) r is not zero is not zero
D) r is not zero
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12
When n is very large, we may find that

A) the standard error of the sampling distribution cannot be determined
B) large values of r may suggest that we should retain the hypothesis that <strong>When n is very large, we may find that</strong> A) the standard error of the sampling distribution cannot be determined B) large values of r may suggest that we should retain the hypothesis that when it is false C) the sampling distribution departs substantially from a normal distribution D) the correlation coefficient is shown to be significantly different from zero when in fact the true value of is not importantly different from zero when it is false
C) the sampling distribution departs substantially from a normal distribution
D) the correlation coefficient is shown to be significantly different from zero when in fact the true value of <strong>When n is very large, we may find that</strong> A) the standard error of the sampling distribution cannot be determined B) large values of r may suggest that we should retain the hypothesis that when it is false C) the sampling distribution departs substantially from a normal distribution D) the correlation coefficient is shown to be significantly different from zero when in fact the true value of is not importantly different from zero is not importantly different from zero
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13
In which of the following cases could the sample r have been any value over a range from rather small to quite large?

A) significant r, <strong>In which of the following cases could the sample r have been any value over a range from rather small to quite large?</strong> A) significant r, B) significant r, C) nonsignificant r, D) any of the above
B) significant r, <strong>In which of the following cases could the sample r have been any value over a range from rather small to quite large?</strong> A) significant r, B) significant r, C) nonsignificant r, D) any of the above
C) nonsignificant r, <strong>In which of the following cases could the sample r have been any value over a range from rather small to quite large?</strong> A) significant r, B) significant r, C) nonsignificant r, D) any of the above
D) any of the above
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14
We can be fairly sure that <strong>We can be fairly sure that is very small in which of the following cases?</strong> A) significant r, B) nonsignificant r, C) nonsignificant r, D) none of the above
is very small in which of the following cases?

A) significant r, <strong>We can be fairly sure that is very small in which of the following cases?</strong> A) significant r, B) nonsignificant r, C) nonsignificant r, D) none of the above
B) nonsignificant r, <strong>We can be fairly sure that is very small in which of the following cases?</strong> A) significant r, B) nonsignificant r, C) nonsignificant r, D) none of the above
C) nonsignificant r, <strong>We can be fairly sure that is very small in which of the following cases?</strong> A) significant r, B) nonsignificant r, C) nonsignificant r, D) none of the above
D) none of the above
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15
A significant correlation ( α\alpha = .01). is obtained for a sample of 1,000 cases. From this we can infer that

A) <strong>A significant correlation ( \alpha = .01). is obtained for a sample of 1,000 cases. From this we can infer that</strong> A) is probably large B) is not zero C) is not zero but probably is small D) none of the above is probably large
B) <strong>A significant correlation ( \alpha = .01). is obtained for a sample of 1,000 cases. From this we can infer that</strong> A) is probably large B) is not zero C) is not zero but probably is small D) none of the above is not zero
C) <strong>A significant correlation ( \alpha = .01). is obtained for a sample of 1,000 cases. From this we can infer that</strong> A) is probably large B) is not zero C) is not zero but probably is small D) none of the above is not zero but probably is small
D) none of the above
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16
A nonsignificant correlation is obtained for a random sample of 6 cases. From this we can infer that

A) <strong>A nonsignificant correlation is obtained for a random sample of 6 cases. From this we can infer that</strong> A) B) is very small C) does not differ by an important amount from 0 D) none of the above
B) <strong>A nonsignificant correlation is obtained for a random sample of 6 cases. From this we can infer that</strong> A) B) is very small C) does not differ by an important amount from 0 D) none of the above is very small
C) <strong>A nonsignificant correlation is obtained for a random sample of 6 cases. From this we can infer that</strong> A) B) is very small C) does not differ by an important amount from 0 D) none of the above does not differ by an important amount from 0
D) none of the above
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17
If we want to know whether a test is predictive of success according to a given performance criterion, we can be certain that it is to some degree if r between these two variables is

A) +.25
B) +.50
C) +.75
D) without knowledge of n, we cannot be certain in any of these circumstances
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18
To test the hypothesis that <strong>To test the hypothesis that we need to remember that the number of degrees of freedom is</strong> A) n B) C) D)
we need to remember that the number of degrees of freedom is

A) n
B) <strong>To test the hypothesis that we need to remember that the number of degrees of freedom is</strong> A) n B) C) D)
C) <strong>To test the hypothesis that we need to remember that the number of degrees of freedom is</strong> A) n B) C) D)
D) <strong>To test the hypothesis that we need to remember that the number of degrees of freedom is</strong> A) n B) C) D)
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19
Fisher's <strong>Fisher's is</strong> A) a kind of z score B) a kind of standard score C) a kind of normalized standard score D) none of the above
is

A) a kind of z score
B) a kind of standard score
C) a kind of normalized standard score
D) none of the above
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20
The standard error of <strong>The standard error of is</strong> A) B) C) D)
is

A) <strong>The standard error of is</strong> A) B) C) D)
B)
<strong>The standard error of is</strong> A) B) C) D)
C) <strong>The standard error of is</strong> A) B) C) D)
D) <strong>The standard error of is</strong> A) B) C) D)
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21
The purpose of the <strong>The purpose of the transformation is to correct for</strong> A) an unknown mean of the sampling distribution of r B) an unknown standard deviation of the sampling distribution of r C) varying shape of the sampling distribution of r D) differing values of n
transformation is to correct for

A) an unknown mean of the sampling distribution of r
B) an unknown standard deviation of the sampling distribution of r
C) varying shape of the sampling distribution of r
D) differing values of n
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22
The <strong>The transformation yields values of for corresponding values of r which are</strong> A) increasingly larger than r as r becomes larger B) increasingly smaller than r as r becomes larger C) proportionately larger than r D) proportionately smaller than r
transformation yields values of
<strong>The transformation yields values of for corresponding values of r which are</strong> A) increasingly larger than r as r becomes larger B) increasingly smaller than r as r becomes larger C) proportionately larger than r D) proportionately smaller than r
for corresponding values of r which are

A) increasingly larger than r as r becomes larger
B) increasingly smaller than r as r becomes larger
C) proportionately larger than r
D) proportionately smaller than r
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23
If the <strong>If the transformation is used to evaluate inference about correlation coefficients, the referent distribution is</strong> A) the normal distribution B) Student's distribution of t C) dependent on the number of degrees of freedom D) a rectangular distribution
transformation is used to evaluate inference about correlation coefficients, the referent distribution is

A) the normal distribution
B) Student's distribution of t
C) dependent on the number of degrees of freedom
D) a rectangular distribution
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24
Which procedure, if any, does not require the assumption of a normal bivariate distribution?

A) t test of the hypothesis of no correlation
B) estimation of the population correlation coefficient
C) <strong>Which procedure, if any, does not require the assumption of a normal bivariate distribution?</strong> A) t test of the hypothesis of no correlation B) estimation of the population correlation coefficient C) test of the hypothesis of no difference between two correlation coefficients D) the assumption is required for all of the above test of the hypothesis of no difference between two correlation coefficients
D) the assumption is required for all of the above
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