University of California, Los Angeles Department of Statistics. Exam 1 21 October 2011

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University of California, Los Angeles Department of Statistics Statistics 00A Instructor: Nicolas Christou Exam 2 October 20 Name: Problem (20 points) a. Let X follow the Poisson distribution with parameter λ. Show that EX n = λe(x + ) n. Hint: Write X n = XX n and then find EXX n. Then use this result to find EX 3. b. Suppose there are n people in a room. Compute or explain how to find the minimum value of n so that the probability that no 4 of them have the same birthday is less than using the Poisson distribution. 2

Problem 2 (20 points) a. Compute the expected value and standard deviation of the minimum number when two dice are rolled. You will have to find the distribution of the minimum (X) first (i.e. complete the table below). X P (X) 2 3 4 5 6 b. Suppose that A, B, and C are three events such that A, B are disjoint, A, C are independent, and B, C are independent. Suppose also that 4P (A) = 2P (B) = P (C), and P (A B C) = 5P (A). Determine the value of P (A).

Problem 3 (20 points) a. Consider the casino roulette game. If a player bets $ on a single game and we let X be the casino s profit we get the following probability distribution: X -35 P (x) 38 37 38 In 500 such games, what is the exact probability that the casino will make more than $200? You don t need to compute this probability, but you must write the exact expression. b. The probability of receiving a one pair poker hand (for example A,A,4,5,0) is 42%. Find the probability that the 6th one pair poker hand for a player will be observed on his 0th game. c. Let X follow the binomial distribution with parameters n and p > 0. Is it true that the mean is always larger than the standard deviation? If not, please find the condition under which this is not true.

Problem 4 (20 points) a. A company rents luxurious cars to customers for recreational purposes. Customers must rent these cars for the entire day. A decision must be made about how many of these cars the company must have. They don t want to have too many cars but at the same time they don t want to turn customers away due to lack of cars availability. Suppose that from experience we know that the number of customers follows the Poisson distribution with λ = 6. per day. The owner of the company would like to find the minimum number of cars so that, with probability 90% or more, all the customers will get a car. Explain how you will be able to find the minimum number of cars. You don t need to submit a final answer as this will take long, but please be very specific. One should be able to find the number of cars by reading your solution! b. Refer to part (a). Suppose that the number of customers follows the Poisson distribution with λ = 6. per day. The probability that at any day at least nine customers will show up is 0.6. What is the probability that it will take more than 3 days until the company observes a day with at least nine customers? d. Refer to part (b). What is the probability that it will take between 6 and 6 days (including) until the company observes a day with at least nine customers?

Problem 5 (20 points) a. In a certain city, taxis are easily identified by rooftop lights. There are two taxi companies in this city, Green and Blue, with taxis colored accordingly. One night, there is a hit-and-run accident involving a taxi. The vehicle was clearly a taxi, as multiple witnesses saw the rooftop light. However, only one witness (Mr. A) claimed to be able to identify the taxi by color. Mr. A claimed that this was a Green taxi. Here are some important facts: Mr. A was given an identification test under lighting conditions similar to those the night of the accident. When the taxi was blue, he identified it correctly 80% of the time. When the test taxi was green, he identified it correctly 80% of the time. A number of other people were given the same identification test, and they also produced the same 80% probability that Mr. A got. Also, we know that in this city, 85% of the taxis are Blue. What is the probability that the accident was really committed by a Green taxi. b. A purchaser of electrical components buys them in lots of size 0. It is his policy to inspect 3 components randomly from a lot and to accept the lot only if all 3 components are nondefective. If 30 percent of the lots have 4 defective components and 70 percent have only, what proportion of lots does the purchaser reject? Hint: It will be easier first to compute the proportion of lots that the purchaser accepts.

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