2003 AMC 10A Problems/Problem 21
Problem
Pat is to select six cookies from a tray containing only chocolate chip, oatmeal, and peanut butter cookies. There are at least six of each of these three kinds of cookies on the tray. How many different assortments of six cookies can be selected?
Solution 1
Let the ordered triplet represent the assortment of chocolate chip cookies, oatmeal cookies, and peanut butter cookies.
Using casework:
Pat selects chocolate chip cookies:
Pat needs to select more cookies that are either oatmeal or peanut butter.
The assortments are: assortments.
Pat selects chocolate chip cookie:
Pat needs to select more cookies that are either oatmeal or peanut butter.
The assortments are: assortments.
Pat selects chocolate chip cookies:
Pat needs to select more cookies that are either oatmeal or peanut butter.
The assortments are: assortments.
Pat selects chocolate chip cookies:
Pat needs to select more cookies that are either oatmeal or peanut butter.
The assortments are: assortments.
Pat selects chocolate chip cookies:
Pat needs to select more cookies that are either oatmeal or peanut butter.
The assortments are: assortments.
Pat selects chocolate chip cookies:
Pat needs to select more cookies that are either oatmeal or peanut butter.
The assortments are: assortments.
Pat selects chocolate chip cookies:
Pat needs to select more cookies that are either oatmeal or peanut butter.
The only assortment is: assortment.
The total number of assortments of cookies that can be collected is
There is a much faster way to do casework.
Case 1: 1 type of cookie - 3 ways
Case 2: 2 types of cookies - 3 ways to choose the 2 types of cookies, and 5 ways to choose how of each there are 1 and 5 2 and 4 3 and 3 4 and 2 5 and 1
cases for case 2
Case 3: 3 types of cookies - quick examination shows us that the only ways to use all three cookies are the following: 4, 1, 1: this gives us 3!/2!*1! = 3 ways 3, 2, 1: this gives us 3! = 6 ways 2, 2, 2: this gives us 1 way total of 10 cases for this case 10+15+3= total
Solution 2
It is given that it is possible to select at least 6 of each. Therefore, we can make a bijection to the number of ways to divide the six choices into three categories, since it is assumed that their order is unimportant. Using the ball and urns/sticks and stones/stars and bars formula, the number of ways to do this is
Solution 3
Suppose the six cookies to be chosen are the stars, as we attempt to implement stars and bars. We take two dividers, and place them between the cookies, such that the six cookies are split into 3 groups, where the groups are the number of chocolate chip, oatmeal, and peanut butter cookies, and each group can have 0. First, assume that the two dividers cannot go in between the same two cookies. By stars and bars, there are ways to make the groups.
Finally, since the two dividers can be together, we must add those cases where the two dividers are in the same space between cookies. There are 7 spaces, and hence 7 cases.
Our final answer is
Solution 4
The numbers of the three types of cookies must have a sum of six. Possible sets of whole numbers whose sum is six are\[ 0,0,6;\ 0,1,5;\ 0,2,4;\ 0,3,3;\ 1,1,4;\ 1,2,3;\ \ \text{and}\ 2,2,2. \]Every ordering of each of these sets determines a different assortment of cookies. There are 3 orders for each of the sets\[ 0,0,6;\ 0,3,3;\ \text{and}\ 1,1,4. \]There are 6 orders for each of the sets\[ 0,1,5;\ 0,2,4;\ \text{and}\ 1,2,3. \]There is only one order for . Therefore the total number of assortments of six cookies is . ~aopsav (Credit to AoPS Alcumus)
Solution 5
Construct eight slots, six to place the cookies in and two to divide the cookies by type. Let the number of chocolate chip cookies be the number of slots to the left of the first divider, the number of oatmeal cookies be the number of slots between the two dividers, and the number of peanut butter cookies be the number of slots to the right of the second divider. For example, represents three chocolate chip cookies, two oatmeal cookies, and one peanut butter cookie. There are ways to place the two dividers, so there are 28 ways to select the six cookies. ~aopsav (Credit to AoPS Alcumus)
See also
2003 AMC 10A (Problems • Answer Key • Resources) | ||
Preceded by Problem 20 |
Followed by Problem 22 | |
1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15 • 16 • 17 • 18 • 19 • 20 • 21 • 22 • 23 • 24 • 25 | ||
All AMC 10 Problems and Solutions |
The problems on this page are copyrighted by the Mathematical Association of America's American Mathematics Competitions.