Bundle: Statistics for the Behavioral Sciences, Loose-leaf Version, 10th + MindTap Psychology, 1 term (6 months) Printed Access Card
Bundle: Statistics for the Behavioral Sciences, Loose-leaf Version, 10th + MindTap Psychology, 1 term (6 months) Printed Access Card
10th Edition
ISBN: 9781337128995
Author: Frederick J Gravetter, Larry B. Wallnau
Publisher: Cengage Learning
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Chapter 18, Problem 15P

15. In Example 11.2 (p. 343) we presented a repeated ­ measures research study demonstrating that swearing can help reduce ratings of pain (Stephens, Atkins, & Kingston, 2009). In the study, each participant was asked to plunge a hand into icy water and keep it there as long as the pain would allow. In one condition, the participants repeated their favorite curse words while their hands were in the water. In the other condition, the participant repeated a neutral word. Each participant rated the intensity of the pain on a 10-point scale. Of the n = 25 participants 17 had a lower pain rating When swearing, 6 had a higher rating, and 2 showed no difference between the two conditions. Is this result significantly different from what would be expected by chance? Use a two-tailed test with a = .05.

EXAMPLE 11.2Swearing is a common, almost ref1exive, response to pain. Whether you knock your shin into the edge of a coffee table or smash your thumb with a hammer, most of us respond with a streak of obscenities. One question, however, is whether swearing focuses attention on the pain and, thereby, increases its intensity, or serves as a distraction that reduces pain. To address this issue, Step hens, Atkins and Kingston (2009) conducted an experiment comparing swearing with other responses to pain. In the study, participants were asked to place one hand in icy cold water for as long as they could bear the pain. Half of the participants were told to repeat their favorite swear word over and over for as long as their hands were in the water. The other half repeated a neutral word. The participants rated the intensity of the pain and the researchers recorded how long each participant was able to tolerate the ice water. After a brief rest, the two groups switched words and repeated the ice water plunge. Thus, all the participants experienced both conditions, (swearing and neutral) with half swearing on their first plunge and half on their second. The results dearly showed that swearing significantly increased pain tolerance and decreased the perceived level of pain. The data in Table 11.3 are representative of the results obtained in the study and represented the reports of pain level of n = 9 participants.

Expert Solution & Answer
Check Mark
To determine

If the result is significantly different from chance using a two-tailed test with α=0.05 .

Answer to Problem 15P

Solution:

Since np and nq = 12.5 >10 so using the Binomial test and Z scores is valid with μ=n*p,σ= n*p*q ,q=1p

H 0i : p i =0.5, H 1 : p i 0.5,i=1:3,n=25 p ^ 1 =17/25=.68, p ^ 2 =6/25=.24, p ^ 3 =2/25=.08

p=0.5Z Z 1,calculated = p ^ 1 p p * q /n =2.16 Z 2,calculated = p ^ 2 p p * q /n =3.12 Z 3,calculated = p ^ 3 p p * q /n =5.04 Z tabulated,0.05,2tailed =(1.96,+1.96)

H 0 of p i =0.5 is rejected for all the 3 categories of ratings as all of them lies in rejection region.The hypothesis of the differences in proportions simply due to chance is rejected. The sample proportions are significantly different from population proportion of 0.5.

Explanation of Solution

Given:

In a study (Stephens, Atkins, & Kingston, 2009) study showing that swearing can help relieve pain, participants placed one hand in freezing cold water for as long as they could bear the pain. In one condition, they shouted a swear word over and over while the hand was in the water. In the other condition, they shouted a neutral word. Each participant rated intensity of pain on a 10 point scale. Suppose out of n=25 participants 17 had lower pain rating, 6 had higher, 2 showed no difference in condition.

Calculations:

The null hypothesis states that for all the 3 ratings the population proportion is 0.5, hence H 0 :p=0.5, H 1 :p0.5 . With a sample of n= 25, np=12,qn=12 . Both values are greater than 10, so the distribution of z-scores is approximately normal. With α=0.05 , the critical region is (1.96,+1.96) .

For this X = 17, 6 and 2, n=25, the sample proportion p ^ 1 =17/25=.68, p ^ 2 =6/25=.24, p ^ 3 =2/25=.08 , p=0.5(null)

Z 1,calculated = p ^ 1 p p * q /n =1.8 Z 2,calculated = p ^ 2 p p * q /n =2.6 Z 3,calculated = p ^ 3 p p * q /n =4.2 Z tabulated,0.05,2tailed =(1.96,+1.96)

Z calculated Lies in rejection region for 2 categories of rating only however for first sample with X=17 it is accepted. Our decision is to reject H 0 for 2nd and 3rd rating category that is X=6 and X=2. These data provide sufficient evidence that 2 rating categories are significantly different from chance but the first rating category is not significantly different from chance.

Conclusion:

We reject H 0 for 2nd and 3rd rating category implying the data provide sufficient evidence that 2of the 3 rating categories are significantly different from chance.

Justification:

Reject H 0 implies 2nd and 3rd rating categories are significantly different from chance. Hence lower and no change categories are only significantly different from chance (which is 50% ).The first category is higher pain rating which has a sample proportion of 68% and null is accepted so for this category the proportion is not significantly different from chance.

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