The accompanying table shows eleven altitudes (in thousands of feet) and the speeds of sound (in feet per second) at these altitudes. Click here to view the data table. Click here to view the table of critical values for the Pearson correlation coefficient, Altitude, x Speed of sound, y o 1115.2 1095.7 r= -0.974 (Round to three decimal places as needed.) 10 1076.8 15 1056.3 20 1037.5 (c) Describe the type of correlation, if any, and interpret the correlation in the context of the data. 25 1015.5 There is a strong negative linear correlation. 30 995.2 35 968.8 Interpret the correlation. Choose the correct answer below. 966.2 40 45 966.2 O A. Based on the correlation, there does not appear to be any relationship between altitude and speed of sound, 966.2 50 O B. Higher altitudes cause increases in speeds of sound. O C. Based on the correlation, there does not appear to be a linear relationship between altitude and speed of sound D. As altitude increases, speeds of sound tend to decrease. Done Print O E As altitude increases, speeds of sound tend to increase. OE Higher altitudes cause decreases in speeds of sound. (d) Use the table of critical values for the Pearson correlation coefficient to make a conclusion about the correlation coefficient. Let a = 0.UT. V between altitude and speed of sound V sufficient evidence at the 1% level of significance to conclude that The critical value is. Therefore, there (Round to three decimal places as needed)

A First Course in Probability (10th Edition)
10th Edition
ISBN:9780134753119
Author:Sheldon Ross
Publisher:Sheldon Ross
Chapter1: Combinatorial Analysis
Section: Chapter Questions
Problem 1.1P: a. How many different 7-place license plates are possible if the first 2 places are for letters and...
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The accompanying table shows eleven altitudes (in thousands of feet) and the speeds of sound (in feet per second) at these altitudes.
Click here to view the data table. Click here to view the table of critical values for the Pearson correlation coefficient.
Altitude, x
Speed of sound, y O
1115.2
.....
5
1095.7
r= -0.974
(Round to three decimal places as needed.)
10
1076.8
15
1056.3
20
1037.5
(c) Describe the type of correlation, if any, and interpret the correlation in the context of the data.
25
1015.5
There is a strong negative linear correlation.
30
995.2
35
968.8
Interpret the correlation. Choose the correct answer below.
40
966.2
45
966.2
O A. Based on the correlation, there does not appear to be any relationship between altitude and speed of sound.
966.2
50
O B. Higher altitudes cause increases in speeds of sound.
O C. Based on the correlation, there does not appear to be a linear relationship between altitude and speed of sound.
YD. As altitude increases, speeds of sound tend to decrease.
Done
Print
O E. As altitude increases, speeds of sound tend to increase.
OF. Higher altitudes cause decreases in speeds of sound.
(d) Use the table of critical values for the Pearson correlation coefficient to make a conclusion about the correlation coefficient. Let a = 0.UT.
between altitude and speed of sound.
V sufficient evidence at the 1% level of significance to conclude that
The critical value is Therefore, there
(Round to three decimal places as needed.)
Clear all
Check
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1 56°F
O 40)
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Transcribed Image Text:The accompanying table shows eleven altitudes (in thousands of feet) and the speeds of sound (in feet per second) at these altitudes. Click here to view the data table. Click here to view the table of critical values for the Pearson correlation coefficient. Altitude, x Speed of sound, y O 1115.2 ..... 5 1095.7 r= -0.974 (Round to three decimal places as needed.) 10 1076.8 15 1056.3 20 1037.5 (c) Describe the type of correlation, if any, and interpret the correlation in the context of the data. 25 1015.5 There is a strong negative linear correlation. 30 995.2 35 968.8 Interpret the correlation. Choose the correct answer below. 40 966.2 45 966.2 O A. Based on the correlation, there does not appear to be any relationship between altitude and speed of sound. 966.2 50 O B. Higher altitudes cause increases in speeds of sound. O C. Based on the correlation, there does not appear to be a linear relationship between altitude and speed of sound. YD. As altitude increases, speeds of sound tend to decrease. Done Print O E. As altitude increases, speeds of sound tend to increase. OF. Higher altitudes cause decreases in speeds of sound. (d) Use the table of critical values for the Pearson correlation coefficient to make a conclusion about the correlation coefficient. Let a = 0.UT. between altitude and speed of sound. V sufficient evidence at the 1% level of significance to conclude that The critical value is Therefore, there (Round to three decimal places as needed.) Clear all Check View an example Get more help - Help me solve this 11 1 56°F O 40) 11/ P Type here to search
The accompanying table shows eleven altitudes (in thousands of feet) and the speeds of sound (in feet per second) at these altitudes.
Click here to view the data table. Click here to view the table of critical values for the Pearson correlation coefficient.
Altitude, x
Speed of sound, y
1115.2
......
1095.7
r= -0.974
(Round to three decimal places as needed.)
10
1076.8
15
1056.3
20
1037.5
(c) Describe the type of correlation, if any, and interpret the correlation in the context of the data.
25
1015.5
There is a strong negative linear correlation.
30
995.2
35
968.8
Interpret the correlation. Choose the correct answer below.
966.2
40
45
966.2
O A. Based on the correlation, there does not appear to be any relationship between altitude and speed of sound.
966.2
50
O B. Higher altitudes cause increases in speeds of sound.
O C. Based on the correlation, there does not appear to be a linear relationship between altitude and speed of sou
OD. As altitude increases, speeds of sound tend to decrease.
it
Done
O E. As altitude increases, speeds of sound tend to increase.
there is no correlation
O F. Higher altitudes cause decreases in speeds of sound.
there is a significant linear correlation
(d) Use the table of critical values for the Pearson correlation coefficient to make a conclusion about the correlation c
between altitude and speed of soun.
The critical value is. Therefore, there
V sufficient evidence at the 1% level of significance to conclude that
(Round to three decimal places as needed.)
Clear al
View an example
Get more help -
Help me solve this
iQ
56°F
P Type here to search
Transcribed Image Text:The accompanying table shows eleven altitudes (in thousands of feet) and the speeds of sound (in feet per second) at these altitudes. Click here to view the data table. Click here to view the table of critical values for the Pearson correlation coefficient. Altitude, x Speed of sound, y 1115.2 ...... 1095.7 r= -0.974 (Round to three decimal places as needed.) 10 1076.8 15 1056.3 20 1037.5 (c) Describe the type of correlation, if any, and interpret the correlation in the context of the data. 25 1015.5 There is a strong negative linear correlation. 30 995.2 35 968.8 Interpret the correlation. Choose the correct answer below. 966.2 40 45 966.2 O A. Based on the correlation, there does not appear to be any relationship between altitude and speed of sound. 966.2 50 O B. Higher altitudes cause increases in speeds of sound. O C. Based on the correlation, there does not appear to be a linear relationship between altitude and speed of sou OD. As altitude increases, speeds of sound tend to decrease. it Done O E. As altitude increases, speeds of sound tend to increase. there is no correlation O F. Higher altitudes cause decreases in speeds of sound. there is a significant linear correlation (d) Use the table of critical values for the Pearson correlation coefficient to make a conclusion about the correlation c between altitude and speed of soun. The critical value is. Therefore, there V sufficient evidence at the 1% level of significance to conclude that (Round to three decimal places as needed.) Clear al View an example Get more help - Help me solve this iQ 56°F P Type here to search
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