Post on 22-May-2020
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10.1 Applying the Counting Principle and Permutations (helps you count up the number of possibilities!)
Example 1: Pizza You are buying a pizza. You have a choice of 3 crusts, 4 cheeses, 5 meat toppings, and 8 vegetable toppings. How many different pizzas with one crust, one cheese, one meat, and one vegetable are possible?
Ask yourself:
WHAT DECISIONS WOULD YOU HAVE TO MAKE TO CREATE A PIZZA? (EACH DECISION IS CALLED AN EVENT!)
HOW MANY CHOICES YOU WOULD HAVE FOR EACH EVENT? ________ ________ ________ ________
Event 1: Picking a crust Event 2: Picking a cheese Event 3: Picking a meat Event 4: Picking a veggie
Total Number of Possibilities: ______________________
FUNDAMENTAL COUNTING PRINCIPLE
Our method for calculating the number of possibilities of simple events. Events: If one event can occur in m ways and another event can occur in n
ways, then the number of ways that both events can occur is ____________.
Example 2: License Plates The standard configuration for a Texas license plate is 1 letter, followed by 2 digits, followed by 3 letters. How many different license plates are possible:
a. if letters and numbers can be repeated? b. if letters and numbers cannot be repeated?
Ask yourself: WHAT WOULD THIS LICENSE PLATE LOOK LIKE? HOW MANY CHOICES DO YOU HAVE FOR EACH EVENT?
Number Choices: 0 1 2 3 4 5 6 7 8 9
Letter Choices: A B C D E F G H I J K L M N O P Q R S T U V W X Y Z a. Can Repeat
Total Number of Possibilities: _____________________
b. CanNOT Repeat
Total Number of Possibilities: _____________________
Example 3: Playoffs: Five teams are competing in a baseball tournament. How many different ways can the baseball teams finish the competition?
Cubs Red Sox Yankees Angels Reds
________ ________ ________ ________ ________
Event 1: 1st Place Event 2: 2
nd Place Event 3: 3
rd Place Event 4: 4
th Place Event 5: 5
th Place
Total Number of Possibilities: _______
How could we do this in the calculator? What is this called?
MATH, PRB, 4: !
!2!11
!14
)!29(
!5
PERMUTATION
The goal: to find the total number of orders of objects that are possible
What to consider: When we have a number of objects n that we would like to arrange or place in
r ways or positions, we use a permutation. In a PERMUTATION, we say order matters
because a different order creates a new possibility.
n = total number of people/objects
r = how many places or positions we are putting them into
which can be written rn P , which does this for us )!(
!
rn
n
TI 83/84: 1: Enter your “n” value - your total number 2: MATH 3: use the right cursor to go over to PRB (probability) 4: Go down to 2: nPr 5: Enter your “r” value 6: Hit ENTER
Example 4: Let’s say you have 7 friends:
1. Allie 2. Lorenzo 3. Charlie 4. Darica 5. Evan 6. Frank 7. Jamal
You decide to find out how many ways you could take all 7 of them and rank them in order of how good of a friend they are (first and second best friend). In other words, how many different orders are possible if we took all 7 of your friends and ranked them 1st and 2nd best friend?
n = total number of people/objects ____
r = how many places or positions we are putting
them into ____
Example 5: You have chosen 7 classes for your schedule next year. How many different orders are possible?
n =
r =
PERMUTATIONS WITH REPETITION
The number of distinguishable orders/permutations of n objects where one object is repeated s times, another is repeated s2 times, and so on, is:
How many ways can the word SEMESTER be arranged? S ____ E ____ M ____ T ____ R ____
CALIFORNIA
!
! !
2 1 k s s s n
10.2 use combinations
Let’s say you have 7 friends: 1. Allie 2. Lorenzo 3. Charlie 4. Darica 5. Evan 6. Frank 7. Jamal
You are all in the same class together. The class has a group project coming up and your teacher tells you to assemble yourselves in groups of 2. You wonder, with all 7 people, how many different mini-groups of 2 could be created? …does the order matter here? Are you creating orders or groups?
COMBINATION
We call this a COMBINATION, where we take a group of objects and see how many mini-groups of a certain size we can create.
n = total number of people/objects
r = the size of the group we are putting them into
which can be written rn C , which does this for us:
Find the number of possible 5-card hands that contain the cards specified. The cards
are taken from a standard 52-card deck.
Example 2: 5 black cards
n = total number of _________________ ( )
r = the size of the group we are putting them into __________ ( )
________C =
5 black cards
Example 3: 1 ace and 4 face cards (Jack, Queen, King)
_______________ _______________ 1 ace 4 face cards
!
)! ( !
r r n n
Example 4: 3 Hearts and 2 non-Hearts
_______________ ______________ 3 Hearts 2 non-Hearts
Example 5: At most 1 diamond
Could have 5 card hands with either:
1 diamond: _______________ ______________
1 Diamond 4 non-Diamonds
0 diamond: _______________ ______________
0 Diamond 5 non-Diamonds
Example 6: You are picking 7 books from a stack of 32. If the order of the books you choose is not important, how many different groups of 7 books are possible?
Example 7: The new releases consist of 12 comedies, 7 drama, 5 suspense, and 9 family movies. You want exactly 2 comedies and 3 family movies. How many possibilities are there for renting 2 comedies and 3 family movies? Event 1: Picking a comedy: _______________ Event 2: Picking a family movie: _______________ Total # of possibilities: _______________
10.3 Define and use Probability and odds
PROBABILITY
To find the probability that an event will occur, we use:
Success
Total Our answer will be a number from 0 to 1 that indicates the likelihood that the event will occur. We may write this as a fraction, a decimal, or a percent.
Example 1: The integers 1 through 20 are written on separate pieces of paper and placed in a hat. Find the probability of:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
a. choosing a perfect square
b. choosing a factor of 40
Example 2: A single card is drawn from a standard deck of 52 cards. Find:
(a) the probability of drawing a black King
Poss. of drawing a Black King Poss. of drawing any card
(b) the probability of drawing a card other than a Spade
Example 3: A candy jar contains 16 chocolate eggs, 2 Reese’s eggs, and 7 Coconut Hershey Kisses. If you reach your hand into the jar once and pull out one piece of candy, find:
candy) egg-non 1 selecting(P
Example 4: Same candy jar: Your little brother walks up to the candy jar, reaches his hand down in one time, and decides to grab two pieces of candy. Find the probability that he selects 2 Coconut Hershey Kisses.
candy of pieces 2any drawing of Poss.
CHK 2 drawing of Poss.CHK) 2 selecting( P
How many chances are there of drawing 2 CHK?? (Be careful here. Think about it-- out of a group of 7 kisses he is selecting groups of 2.) _______________________ How many different possibilities could come out of that? (Be careful here. Think about it out of a group of 25 candies he is selecting groups of 2.) _______________________
ODDS
To find the odds that an event will occur, we use:
Success
Failures
Odds can be written as a fraction, a ratio 3:5, or 3 to 5.
Odds that event A will occur:
535:35
3to
Example 5: You randomly choose a drink from a cooler. The cooler contains 26 pop cans. There are:
13 Sunkist, 5 Pepsi, 3 Mountain Dew, and 5 Sprite.
(a) Find the odds in favor of drawing a Mountain Dew or Sprite can.
(b) Find the odds against drawing a Sunkist can.
EXPERIMENTAL
PROBABILITY
When an experiment is performed that consists of a certain number of trials, the experimental probability of an event A is:
Number of trials where A occurs
Total number of trials
Example 6: Exam Grades Exam grades of students in a history class are shown in the bar graph. Find the probability that a randomly chosen student in this history class received a C or better.
OR 10.4 Find Probabilities of Disjoint & Overlapping Events
DISJOINT
EVENTS (ALSO CALLED
MUTUALLY EXCLUSIVE)
A card is randomly selected from a standard deck of 52 cards. What is the probability that it is a 10 or a face card?
+ =
_______________________ __________________________ _____________
Probability of a 10 Probability of a face card Total Prob.
In general, two events are disjoint, meaning they are separate events, when their outcomes have nothing in common, and they are connected by the word OR. To find the probability:
P(A or B) = _P(A) + P(B)_
EXAMPLE 1: You roll a six-sided number cube. What is the probability of rolling 1 or an even number?
+
_________________ ___________________ = ___________
Event A: roll a 1 Event B: roll even ??How do we know that these events are disjoint??
Events A and B are disjoint. Find P(A or B).
P(A) = 0.85, P(B) = 0.05
Events A and B are disjoint. Find P(A or B).
P(A) =2
1, P(B) =
5
1
OVERLAPPING
EVENTS
You roll a six-sided number cube. What is the probability of rolling an odd number or a number less than 3?
+ =
____________________ _________________________ _____________ _____________
roll an odd number roll a number less than 3 Overlap Total Prob.
odd AND less than 3 P(odd or less than 3)
In general, two events are overlapping when they are separate events that have some outcomes in common, and are joined by the word OR. To find the probability:
P(A or B) = _P(A) + P(B) P(A and B)_
EXAMPLE 2: A card is randomly selected from a standard deck of 52 cards. Find the probability that it is red OR a face card.
FIND THE INDICATED PROBABILITY.
3. P(A) = 11
6, P(B) =
11
3
P(A or B) = 11
7
P(A and B) = _________
+ − =
_____ _____ _____________ _____________
A B Overlap Total Prob. P(A and B) P(A or B)
4. P(A) = 0.5 P(B) = 0.35
P(A and B) = 0.2
P(A or B) = _________
+ − =
_____ _____ _____________ _____________
A B Overlap Total Prob. P(A and B) P(A or B)
IN NUMBERS 3 AND 4, ARE EVENTS A AND B DISJOINT? EXPLAIN WHY OR WHY NOT?
Determine whether the following events would be Disjoint or Overlapping.
DISJOINT OVERLAPPING ? P(selecting a Queen or a card under 10)
DISJOINT OVERLAPPING ? P(selecting black card or an even numbered card)
DISJOINT OVERLAPPING ? P(selecting a person with contacts or a person on a sports team)
DISJOINT OVERLAPPING ? P(selecting a person wearing jeans or a person who’s 16)
COMPLEMENT
The event A , called the complement of event A, consists of all outcomes that are not in A.
The notation A is read as “A bar.”
The probability of the complement of A is P( A ) = 1 P(A).
Tomorrow there is a 63% probability of rain… So… P(not rain) = 1 −
AND 10.5 Find Probabilities of independent and dependent events
INDEPENDENT
EVENTS
In general, events are independent if the occurrence of one has no effect on the occurrence of the other, and if the purpose is to find the probability that both the first AND the second event will occur.
P(A and B) = _P(A) • P(B)_
Every morning, one student in a class of 24 students is randomly chosen to take attendance. What is the probability that the same student will be chosen three days in a row? Are these independent events?
• • = _________ _________ _________ _____________
P(Day 1) P(Day 2) P(Day 3) Total Prob.
EXAMPLE 1: For a fundraiser, a class sells 150 tickets for a mall gift certificate and 200 raffle tickets for a booklet of movie passes. You buy 5 raffle tickets for each price. What is the probability that you win both prizes? Why are these independent events? P(win certificate AND win booklet) • =
_________ _________ _____________
P(cert.) P(booklet) Total Prob.
Events A and B are independent.
P(A) = 0.5
P(B) = 0.25
P(A and B) = _________
Events A and B are independent.
P(A) = _________
P(B) = 0.6
P(A and B) = 0.15
DEPENDENT EVENTS
Two events A and B are dependent if the occurrence of one affects the occurrence of the other, and if the purpose is to find the probability that both the first AND the second event will occur. The probability that B will occur given that A has already occurred is called the conditional
probability of B. In other words, B’s probability depends on what happened with A. We use P(BA) to denote B’s probability.
P(A and B) = _P(A) • P(BA)
EXAMPLE 2: The host of a game show is drawing chips from a bag one at a time to determine the prizes for which contestants will play. Of the 10 chips in the bag, 6 are labeled “TV”, 3 are labeled “V” for a vacation to Italy, and 1 is labeled “GT” for the Mustang GT you could win. If the host draws the chips at random and does not replace them, find each probability.
EXAMPLE 3: Three cards are drawn from a standard deck of cards without
replacement. Find the probability of drawing a diamond, a club, and another diamond in that order.
EXAMPLE 4: Three cards are drawn from a standard deck of cards with replacement.
Find the probability of drawing a diamond, a club, and another diamond in that order.
P(A) = 0.8
P(BA ) = ________
P(A and B) = 0.32
P(A) = 0.3
P(BA ) = 0.6
P(A and B) = ________
TV TV TV TV TV TV
V V V
GT
a. P(a TV, then a car)
b. P(a television, then another television)