� Massachusetts Institute of Technology Department of Electrical Engineering & Computer Science 6.041/6.431: Probabilistic Systems Analysis (Spring 2006) Problem Set 4 Due: March 8, 2006 1. Professor May B. Right often has her science facts wrong, and answers each of her students’ questions incorrectly with probability 1/4, independently of other questions. In each lecture Professor Right is asked either 1 or 2 questions with equal probability. (a) What is the probability that Professor Right gives wrong answers to all the questions she gets in a given lecture? (b) Given that Pr ofessor Right gave wrong answers to all the questions she was asked in a given lecture, what is the probability that she got two questions? (c) L et X and Y be the number of questions asked and the number of questions answered correctly in a lecture, respectively. What are the mean and variance of X and the mean and the variance of Y ? (d) Give a neatly labeled sketch of th e joint PMF pX,Y (x, y). (e) L et Z = X + 2Y . What are the expectation and variance of Z? For the remaining parts of this problem, assume that Professor Right has 20 lectures each semester and each lecture is independent of any other lecture. (f) The university where Professor Right works has a peculiar compensation plan. For each lecture, she gets paid a base salary of $1, 000 plus $40 for each question she answers and an additional $80 for each of these s he answers correctly. In terms of random variable Z, she gets p aid $1000 + $40Z per lecture. What are the expected value and variance of her semesterly salary? (g) Determined to improve her reputation, Professor R ight decides to teach an additional 20-lecture class in her specialty (math), where she answers questions incorrectly with probability 1/10 rather than 1/4. What is the expected number of questions that she will answer wrong in a randomly chosen lecture (math or science). 2. The joint PMF of discrete random variables X and Y is given by Cx2√y, if x = −5, −4, . . . , 4, 5 and y = 0, 1, . . . , 10; pX,Y (x, y) = 0 otherwise. Here, C is some constant. What is E[XY3]? Hint: This question admits a sh ort answer/explanation. Don’t spend time doing calculations. 3. Joe Lucky plays the lottery on any given week with probability p, independently of whether he played on any other week. Each time he plays, he has a probability q of winning, again independently of everything else. During a fixed time period of n weeks, let X be the number of weeks that he played the lottery and Y the number of weeks that he won. (a) What is the probability that he played the lottery any particular week, given that he did not win anything that week? (b) Find the conditional PMF pY |X (y | x). Page 1 of 3Massachusetts Institute of Technology Department of Electrical Engineering & Computer Science 6.041/6.431: Probabilistic Systems Analysis (Spring 2006) (c) Find the joint PMF pX,Y (x, y). (d) Find the marginal PMF pY (y). Hint: One possibility is to start with the ans wer to part (c), but the algebra can be messy. But if you think intuitively about the pro cedu re that generates Y , you may be able to guess the answer. (e) Find the conditional PMF pX|Y (x | y). Do this algebr aically using previous answers. (f) Rederive the answer to part (e) by thinking as follows: For each one of the n −Y weeks that he did not win, the answer to part (a) s hould tell you something. In all parts of this problem, make sure to indicate the range of values for w hich your PMF formula applies. 4. Let X and Y be independent random variables that take values in the set {1, 2, 3}. Let V = 2X + 2Y and W = X −Y . (a) Assume that P({X = k}) and P({Y = k}) are positive for any k ∈ {1, 2, 3}. Can V and W be indepen dent? Explain. (No calculations needed.) For the remaining parts of this problem, assume that X and Y are uniformly distributed on .{1, 2, 3}(b) Find and plot pV (v). Also, determine E[V ] and var(V ). (c) Find and sh ow in a diagram pV,W (v, w). (d) Find E[V W > 0]. |(e) Find the conditional variance of W given the event {V = 8}. (f) Find and plot the conditional PMF pX|V (x | v), for all values. 5. Suppose the waiting time until the next bus at a particular bus stop is exponentially dis-1tributed, with parameter λ = 15 . S uppose that a bus pulls out just as you arrive at th e stop. Find the probability that: (a) You wait more than 15 minutes for a bus. (b) You wait between 15 and 30 minutes for a bus. Page 2 of 3Massachusetts Institute of Technology Department of Electrical Engineering & Computer Science 6.041/6.431: Probabilistic Systems Analysis (Spring 2006) G1† . C lark is a news reporter who lives in Metropolis. Every morning he drives from his apartment at point A to Th e Daily Planet office at point B for work. He travels only in the north and east directions, and he chooses each path with equal probability. T he heavy line in the diagram indicates one such valid path. C B 5th Ave. 4th Ave. N D 3rd Ave. 2nd Ave. 1st Ave. A Broadway Main St.1st St.2nd St.3rd St.4th St.5th St.6th St.7th St. (a) Determine the probability that the path in the diagram is the one he actually picked this morning. (b) There is a phone booth at point C, the intersection of 4th St. and 3rd Ave. Find the probability that he drove past this phone booth on his way to work this morning. (c) Find the probability that he drove past the phone booth, given that he was seen on the portion of 3rd St. between 2nd and 3rd Ave. (point D). (d) Repeat part (b) for the general case wh ere his apartment is located at the intersection of Main and Broadway, The Daily Planet is lo cated at the
View Full Document
Unlocking...