1. 12.1 & 12.2: The Fundamental Counting Principal, Permutations, & Combinations

2. 12.1 & 12.2 Vocabulary Outcome: The result of a single trial. Sample space: The set of all possible outcomes. Event: Consists of one or more outcomes of a trial. Independent events: Is not affected by any outcome. Dependent events: The outcome of one event affects the outcome of another event. Permutation: A group of objects or people are arranged in a certain order. Linear Permutation: A group of objects or people are arranged in a line. Combination: An arrangement or selection of objects in which order DOES NOT matter.

3. The Fundamental Counting Principal If you have 2 events: 1 event can occur m ways and another event can occur n ways, then the number of ways that both can occur is m*n Event 1 = 3 types of meats Event 2 = 2 types of bread How many diff types of sandwiches can you make? 3(types of meat)*2(types of bread) = 6

4. 3 or more events: 3 events can occur m, n, & p ways, then the number of ways all three can occur is m*n*p 3 meats 2 breads 3 cheeses How many different sandwiches can you make? 3*3*2 = 18 sandwiches

5. At a restaurant at Six Flags, you have the choice of 8 different entrees, 2 different salads, 12 different drinks, & 6 different deserts. How many different dinners (one choice of each) can you choose? 8*2*12*6 =1152 different dinners Example

6. Fund. Counting Principal without Repetition Ohio Licenses plates have 3 #’s followed by 3 letters. 1. How many different licenses plates are possible if digits and letters can be repeated? There are 10 choices for digits and 26 choices for letters. 10*10*10*26*26*26= 17,576,000 different plates

7. How many plates are possible if digits and numbers cannot be repeated? Are the events independent or dependent? There are still 10 choices for the 1 st digit but only 9 choices for the 2 nd, and 8 for the 3 rd. For the letters, there are 26 for the first, but only 25 for the 2 nd and 24 for the 3 rd. 10*9*8*26*25*24= 11,232,000 plates

8. Permutations Orders arrangement of items where the order is important. –You can use the Fund. Counting Principal to determine the number of permutations of n objects. How many ways can we arrange ABC?

9. Example ABC ACB BAC BCA CAB CBA There are 3 choices for 1 st # 2 choices for 2 nd # 1 choice for 3 rd. 3*2*1 = 6 ways to arrange the letters

10. Try on your own. How many different ways can 11 futbol players be arranged in a lineup? 11! = 11*10*9*8*7*6*5*4*3*2*1 = 39,916,800 different ways

11. Factorial with a calculator: Hit math then over, over, over. Option 4

12. Factorials

13. Using Permutations

14. Olympic skiing competition. How many different ways can 12 skiers finish 1 st, 2 nd, & 3 rd (gold, silver, bronze) Any of the 12 skiers can finish 1 st, then any of the remaining 11 can finish 2 nd, and any of the remaining 10 can finish 3 rd. So the number of ways the skiers can win the medals is 12*11*10 = 1320

15. Back to the last problem with the skiers It can be set up as the number of permutations of 12 objects taken 3 at a time. 12 P 3 = 12! = 12! = (12-3)!9! 12*11*10*9*8*7*6*5*4*3*2*1 = 9*8*7*6*5*4*3*2*1 12*11*10 = 1320

16. 10 colleges, you want to visit. How many ways can you visit 6 of them: Permutation of 10 objects taken 6 at a time: 10 P 6 = 10!/(10-6)! = 10!/4! = 3,628,800/24 = 151,200

17. How many ways can you visit all 10 of them: 10 P 10 = 10!/(10-10)! = 10!/0!= 10! = ( 0! By definition = 1) 3,628,800

18. Permutations with Repetition The number of DISTINGUISHABLE permutations of n objects where one object is repeated p times, another is repeated q times, and so on : n! p! * q! * …

19. So far in our problems, we have used distinct objects. If some of the objects are repeated, then some of the permutations are not distinguishable. There are 6 ways to order the letters M,O,M MOM, OMM, MMO Only 3 are distinguishable. 3!/2! = 6/2 = 3

20. Find the number of distinguishable permutations of the letters: How many different ways can the word Mississippi be arranged. MISSISSIPPI : 11 letters with I repeated 4 times, S repeated 4 times, P repeated 2 times 11! = 39,916,800 = 34,650 4!*4!*2!24*24*2

21. Find the number of distinguishable permutations of the letters: SUMMER : 360 WATERFALL : 90,720

22. Combinations

23. Whats the Difference? "My fruit salad is a combination of apples, grapes and bananas" We don't care what order the fruits are in, they could also be "bananas, grapes and apples" or "grapes, apples and bananas", its the same fruit salad. "The combination to the safe was 472". Now we do care about the order. "724" would not work, nor would "247". It has to be exactly 4-7-2. The combo is really a permutation lock

24. Combination with Multiple Events

25. How lotteries work. The numbers are drawn one at a time, and if you have the lucky numbers (no matter what order) you win! So what is your chance of winning?

26. The easiest way to explain it is to: assume that the order does matter (ie permutations), then alter it so the order does not matter.