Question

Suppose the makers of M&M candies give the following average percentages for the mix of colors...

Suppose the makers of M&M candies give the following average percentages for the mix of colors in their bags of plain chocolate M&M's.

Stated Distribution of Colors

Brown Yellow Red Orange Green Blue   
Percent      30%   20%   20%   10%   10%   10%   

Now, you randomly select 200 M&M's and get the counts given in the table below. You expected about 20 blues but only got 8. You suspect that the maker's claim is not true.

Observed Counts by Color (n = 200)

Brown Yellow Red Orange Green Blue   
Count      62     37     44     26     23     8   

The Test: Test whether or not the color of M&M's candies fits the distribution stated by the makers (Mars Company). Conduct this test at the 0.01 significance level.

(a) What is the null hypothesis for this test in terms of the probabilities of the outcomes?

H0:  pbrown = 0.30, pyellow = 0.20, pred = 0.20, porange = 0.10, pgreen = 0.10, and pblue = 0.10.

H0: At least one of the probabilities doesn't fit the company's statement.     

H0:  pbrown = pyellow = pred = porange = pgreen = pblue = 1/6

H0: The probabilities are not all equal to 1/6.


(b) What is the value of the test statistic? Round to 3 decimal places unless your software automatically rounds to 2 decimal places.

χ2=  

(c) Use software to get the P-value of the test statistic. Round to 4 decimal places unless your software automatically rounds to 3 decimal places.

P-value =  

(d) What is the conclusion regarding the null hypothesis?

reject H0

fail to reject H0     


(e) Choose the appropriate concluding statement.

We have proven that the distribution of candy colors fits the maker's claim.

The data suggests that the distribution of candy colors does not fit the maker's claim.     

There is not enough data to suggest that the distribution of candy colors is different from what the makers claim.

Homework Answers

Answer #2

The statistical software output for this problem is :

H0:  pbrown = 0.30, pyellow = 0.20, pred = 0.20, porange = 0.10, pgreen = 0.10, and pblue = 0.10.

Test statistics = 10.142

P-value = 0.0713

There is not enough data to suggest that the distribution of candy colors is different from what the makers claim.

answered by: anonymous
Know the answer?
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Not the answer you're looking for?
Ask your own homework help question
Similar Questions
M&M's Color Distribution: Suppose the makers of M&M candies give the following average percentages for the...
M&M's Color Distribution: Suppose the makers of M&M candies give the following average percentages for the mix of colors in their bags of plain chocolate M&M's. Stated Distribution of Colors Brown Yellow Red Orange Green Blue Percent   30%   20%   20%   10%   10%   10% Now, you randomly select 200 M&M's and get the counts given in the table below. You expected about 20 blues but only got 9. You suspect that the maker's claim is not true. Observed Counts by Color...
M&M's Color Distribution: Suppose the makers of M&M candies give the following average percentages for the...
M&M's Color Distribution: Suppose the makers of M&M candies give the following average percentages for the mix of colors in their bags of plain chocolate M&M's. Stated Distribution of Colors Brown Yellow Red Orange Green Blue Percent 30% 20% 20% 10% 10% 10% Now, you randomly select 200 M&M's and get the counts given in the table below. You expected about 20 blues but only got 9. You suspect that the maker's claim is not true. Observed Counts by Color...
M&M's Color Distribution: Suppose the makers of M&M candies give the following average percentages for the...
M&M's Color Distribution: Suppose the makers of M&M candies give the following average percentages for the mix of colors in their bags of plain chocolate M&M's. Stated Distribution of Colors Brown Yellow Red Orange Green Blue Percent   30%   20%   20%   10%   10%   10% Now, you randomly select 200 M&M's and get the counts given in the table below. You expected about 20 blues but only got 9. You suspect that the maker's claim is not true. Observed Counts by Color...
M&M's Color Distribution: Suppose the makers of M&M candies give the following average percentages for the...
M&M's Color Distribution: Suppose the makers of M&M candies give the following average percentages for the mix of colors in their bags of plain chocolate M&M's. Stated Distribution of Colors Brown Yellow Red Orange Green Blue    Percent      30%   20%   20%   10%   10%   10%    Now, you randomly select 200 M&M's and get the counts given in the table below. You expected about 20 blues but only got 10. You suspect that the maker's claim is not true. Observed...
M&M's Color Distribution: Suppose the makers of M&M candies give the following average percentages for the...
M&M's Color Distribution: Suppose the makers of M&M candies give the following average percentages for the mix of colors in their bags of plain chocolate M&M's. Stated Distribution of Colors Brown Yellow Red Orange Green Blue Percent   30%   20%   20%   10%   10%   10% Now, you randomly select 200 M&M's and get the counts given in the table below. You expected about 20 blues but only got 9. You suspect that the maker's claim is not true. Observed Counts by Color...
Several years ago, the Mars, Incorporated website reported the following percentages of the various colors of...
Several years ago, the Mars, Incorporated website reported the following percentages of the various colors of its M&M'S candies for the "milk chocolate" variety.† A graphical display lists 6 colors. Beside each color is a picture of an M&M with the percentage listed below the picture. The colors and percentages are as follows. Brown: 13% Yellow: 14% Red: 13% Blue: 24% Orange: 20% Green: 16% A 14-ounce bag of milk chocolate M&M'S is randomly selected and contains 71 brown, 75...
Several years ago, the Mars, Incorporated website reported the following percentages of the various colors of...
Several years ago, the Mars, Incorporated website reported the following percentages of the various colors of its M&M'S candies for the "milk chocolate" variety.† A graphical display lists 6 colors. Beside each color is a picture of an M&M with the percentage listed below the picture. The colors and percentages are as follows. Brown: 13% Yellow: 14% Red: 13% Blue: 24% Orange: 20% Green: 16% A 14-ounce bag of milk chocolate M&M'S is randomly selected and contains 72 brown, 74...
M&Ms are multicolored candies in a bag with six colors: Brown, Blue, Red, Yellow, Green and...
M&Ms are multicolored candies in a bag with six colors: Brown, Blue, Red, Yellow, Green and Orange. Mars now claims that all six colors are equally likely. In an attempt to reject the claim, an 8-oz bag of M&Ms was purchased and the colors counted. The results of the count are below. Does this sample contradict Mars’ claim when α = 0.10? Brown Blue Red Yellow Green Orange 37 41 32 25 36 39 If the claim is true what...
A package of 100 candies are distributed with the following color​ percentages: 12​% ​red, 22​% orange,...
A package of 100 candies are distributed with the following color​ percentages: 12​% ​red, 22​% orange, 14​% ​yellow, 12​% brown, 24% ​blue, and 16​% green. Use the given sample data to test the claim that the color distribution is as claimed. Use a 0.025 significance level. Candy Counts Color Number in Package Red 1313 Orange 2727 Yellow 66 Brown 1010 Blue 2727 Green 17 The test statistic is ​(Round to two decimal places as​ needed.) The critical value is ​(Round...
M&M plain candies come in various colors. According to the M&M/Mars Department of Consumer Affairs, the...
M&M plain candies come in various colors. According to the M&M/Mars Department of Consumer Affairs, the distribution of colors for plain M&M candies is as follows. Color Purple Yellow Red Orange Green Blue Brown Percentage 23% 17% 23% 7% 9% 8% 13% Suppose you have a large bag of plain M&M candies and you choose one candy at random. (a) Find P(green candy or blue candy). Are these outcomes mutually exclusive? Why? No. Choosing a green and blue M&M is...