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Weights of 10 red and 36 brown randomly chosen M{\&}M plain candies are listed below. Red: 0.897 0.912 0.952 0.933 0.898 0.923 0.898 0.92 0.909 0.983   Brown: 0.877 0.902 0.912 0.985 0.898 0.875 0.966 0.909 0.988 0.915 0.931 0.923 0.889 0.92 0.928 0.921 0.93 0.861 0.866 0.929 0.876 0.914 0.909 0.904 0.918 0.856 0.92 0.867 1.001 0.902 0.872 0.86 0.858 0.857 0.897 0.913 1.    To construct a 95% confidence interval for the mean weight of red M{\&}M plain candies, you have to use A. The t distribution with 11 degrees of freedom B. The t distribution with 9 degrees of freedom C. The normal distribution D. The t distribution with 10 degrees of freedom E. None of the above 2.    A 95% confidence interval for the mean weight of red M{\&}M plain candies is _____<μ< ______ 3.    To construct a 95% confidence interval for the mean weight of brown M{\&}M plain candies, you have to use A. The t distribution with 37 degrees of freedom B. The t distribution with 35 degrees of freedom C. The t distribution with 36 degrees of freedom D. The normal distribution E. None of the above 4.    A 95% confidence interval for the mean weight of brown M{\&}M plain candies is _____<μ<_____

Weights of 10 red and 36 brown randomly chosen M{\&}M plain candies are listed below. Red: 0.897 0.912 0.952 0.933 0.898 0.923 0.898 0.92 0.909 0.983   Brown: 0.877 0.902 0.912 0.985 0.898 0.875 0.966 0.909 0.988 0.915 0.931 0.923 0.889 0.92 0.928 0.921 0.93 0.861 0.866 0.929 0.876 0.914 0.909 0.904 0.918 0.856 0.92 0.867 1.001 0.902 0.872 0.86 0.858 0.857 0.897 0.913 1.    To construct a 95% confidence interval for the mean weight of red M{\&}M plain candies, you have to use A. The t distribution with 11 degrees of freedom B. The t distribution with 9 degrees of freedom C. The normal distribution D. The t distribution with 10 degrees of freedom E. None of the above 2.    A 95% confidence interval for the mean weight of red M{\&}M plain candies is _____<μ< ______ 3.    To construct a 95% confidence interval for the mean weight of brown M{\&}M plain candies, you have to use A. The t distribution with 37 degrees of freedom B. The t distribution with 35 degrees of freedom C. The t distribution with 36 degrees of freedom D. The normal distribution E. None of the above 4.    A 95% confidence interval for the mean weight of brown M{\&}M plain candies is _____<μ<_____

MATLAB: An Introduction with Applications
MATLAB: An Introduction with Applications
6th Edition
ISBN:9781119256830
Author:Amos Gilat
Publisher:Amos Gilat
Chapter1: Starting With Matlab
Section: Chapter Questions
Problem 1P
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Weights of 10 red and 36 brown randomly chosen M{\&}M plain candies are listed below.

Red: 0.897 0.912 0.952 0.933 0.898 0.923 0.898 0.92 0.909 0.983  
Brown: 0.877 0.902 0.912 0.985 0.898 0.875 0.966 0.909 0.988 0.915 0.931 0.923 0.889 0.92 0.928 0.921 0.93 0.861 0.866 0.929 0.876 0.914 0.909 0.904 0.918 0.856 0.92 0.867 1.001 0.902 0.872 0.86 0.858 0.857 0.897 0.913
1.    To construct a 95% confidence interval for the mean weight of red M{\&}M plain candies, you have to use
A. The t distribution with 11 degrees of freedom
B. The t distribution with 9 degrees of freedom
C. The normal distribution
D. The t distribution with 10 degrees of freedom
E. None of the above
2.    A 95% confidence interval for the mean weight of red M{\&}M plain candies is

_____<μ< ______
3.    To construct a 95% confidence interval for the mean weight of brown M{\&}M plain candies, you have to use
A. The t distribution with 37 degrees of freedom
B. The t distribution with 35 degrees of freedom
C. The t distribution with 36 degrees of freedom
D. The normal distribution
E. None of the above
4.    A 95% confidence interval for the mean weight of brown M{\&}M plain candies is
_____<μ<_____

 

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