EX TL A commuter encounters two traffic signals on the drive home. There is a 0.80 probability of being stopped at at least one of the signals; 0.65 probability of being stopped at the first signal; 0.55 at the second.
EX 2D Toss two fair 6-sided dice. The sample space is S = { (i , j) : i = 1, , 6, j = 1, , 6 }. The probability of an event is the number of outcomes in the event divided by 36. Some events:
A1 = sum is 7
A2 = second die results in 2
A3 = first die results in 3
A7 = first die is 1 or 2 or 3
A8 = first die is 3 or 4 or 5
A9 = sum is 9
= { (1 , 6) , (2 , 5) , (3 , 4) , (4 , 3) , (5 , 2) , (6 , 1) } = { (1 , 2) , (2 , 2) , (3 , 2) , (4 , 2) , (5 , 2) , (6 , 2) } = { (3 , 1) , (3 , 2) , (3 , 3) , (3 , 4) , (3 , 5) , (3 , 6) }
= { (3 , 6) , (4 , 5) , (5 , 4) , (6 , 3) }
P(A1) = 1/6 P(A2) = 1/6 P(A3) = 1/6 P(A7) = 1/2 P(A8) = 1/2 P(A9) = 1/9
EX 27 A bucket contains nB black and nW white balls (define n = nB + nW). Balls are randomly selected, without replacement. Whats the probability we first see a white ball on the ith selection? Twist: Suppose instead sampling is random with replacement.
EX 28 A bucket contains 5 black, 7 yellow and 9 red balls. A set of 3 balls is randomly selected.
EX CARDS N cards labeled 1, 2, , N are randomly permuted into N bins labeled 1, 2, , N (one card per bin). Whats the probability that exactly k of the card labels match the bins label? Recall from our past that if there are M cards & bins, the probability of no matches, denoted PM, is
P = M
M(1)j M(1)j 1111 1
j=0 j! j=2 j!
=
2! 3! 4! 5!
= e1 (whe+n Mis l+arge) M!
The first sums first two terms are 1 and -1 and cancel leading to the equivalent second sum. See the next page for some results.
EX VOTE There are 4 precincts in a city. 15% of voters reside in precinct 1, 35% in precinct 2; 10% in precinct 3 and 40% in precinct 4. In precinct 1 the incumbent is favored by 60% of voters; favorability in the remaining precincts, respectively, is 45%, 20% and 55%.
a. If we select a voter at random from the city, what is the probability the voter is a Precinct 1 resident that favors the incumbent?
b. If we select a voter at random from the city, what is the probability the voter favors the incumbent?
c. Suppose the selected voter indeed does favor the incumbent. Whats the probability the voter comes
from precinct 1? 2? 3? 4?
EX RRS How do we ensure reasonable privacy of responses when surveying people on a sensitive issue? Heres one potential way. A sample of people is handed this survey.
If your father was born in a month with 31 days, respond to only Q1 below; otherwise respond to only Q2. (Do not identify the question you answer.)
Q1: Is the second-to-last digit of your social security number odd (1, 3, 5, 7, or 9)? Q2: Have you ever cheated in school?
Your response: circle one YES NO
EX SMOKE Heavy smokers are 8 times more likely than non-smokers to develop lung cancer; light smokers are 3 times as likely. The probability a (randomly selected) adult is a heavy smoker is 0.1; the probability is 0.25 that the adult is a light smoker. If a person is found to have lung cancer, what is the probability the person was a heavy smoker? Light? Non?
EX CARDS (results)
Suppose N = 7.
k
0
1
2
3
4
5
6
7
Prob k matches
1 1 + 1 1 + 1 1 = 0.367857143
e1 k!
11+11 0.1839397
0.3678794 11+11+1 0.3678794
2! 3! 4! 5! 6! 7!
2!
3! 4! 5! 6! = 0.368055556 1!
2!
3!2!4! 5! = 0.183333333
11+1 0.06131324
2!
3! 4! = 0.062500000 3!
11
2!4!3! = 0.013888889
1
2! = 0.004166667 5!
0
1 = 0.0001984127 7!
0.01532831
0.00365662 0.0005109437
0.00007299195 0.9999898
SUM 1.0000000000
The approximation requires N k large. Here thats 7 k. Its a quite good approximation even for fairly small values of N k (like for instance k = 3 where 7 k = 4 which is not usually considered large among nonnegative integers).
Beyond 4 or 5 cards, it really doesnt matter how many cards there are. (Yes it matters a bit.)
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