# Exercises - Probability Distributions

1. Determine which of the following represent valid probability distributions

1. $\displaystyle{\begin{array}{c|c|c|c|c}x & 0 & 1 & 2 & 3 \\\hline P(x) & 1/8 & 3/8 & 3/8 & 1/8\end{array}}$

2. $\displaystyle{\begin{array}{c|c|c|c|c}x & 0 & 1 & 2 & 3 \\\hline P(x) & 1/8 & -3/8 & 3/4 & 1/2\end{array}}$

3. $\displaystyle{\begin{array}{c|c|c|c|c}x & 0 & 1 & 2 & 3 \\\hline P(x) & 1/8 & 3/8 & 3/8 & 2/8\end{array}}$

2. Is the function described below a pdf? Explain.

$$f(x)=\frac{x+1}{10} \textrm{ for } x = 0, 1, 2, 3$$
3. Find the mean, variance, and standard deviation for the following distribution

$$\displaystyle{\begin{array}{c|c|c|c|c}x & 0 & 1 & 2 & 3 \\\hline P(x) & 1/8 & 3/8 & 3/8 & 1/8\end{array}}$$
4. A game at a local fair will give $\$$100 to anyone that can break a balloon by throwing a dart at it. The game costs \$$5 to throw a single dart, and you're willing to spend$\$$30 trying to win. Assuming that you have a 10% chance of hitting the balloon on any given throw, find the expected number of darts you will throw. 5. Based on previous information, it has been determined that 90% of the population brush their teeth once a day. Answer the following for a sample of 20 people: 1. What is the probability that exactly 18 people brush their teeth once a day? 2. What is the probability that at least 18 people brush their teeth once a day? 6. A fair coin is tossed eight times. Let the random variable be the number of heads that appear. 1. What is the probability that exactly 4 heads appear? 2. What is the probability that you get either all heads or all tails? 7. Toss a coin 16 times. Let X be the number of heads that appear. 1. Find the probability that there will be more than 13 heads using a Binomial distribution. 2. Use the the standard Normal distribution to approximate this probability. 3. Was the approximation reasonable? Explain. 8. Roll a standard die 8 times. Let X be the number of 2's rolled. Find the following: 1. P(X=3), the probability of rolling exactly 3 two's 2. P(X \lt 3), the probability of rolling less than 3 two's 3. P(X \ge 3), the probability of rolling at least 3 two's 9. Heights of females are normally distributed with a mean of 63.6 inches and a standard deviation of 2.5 inches. Respond to the following: 1. What is the probability that a female selected at random will be taller than 72 inches (or 6 feet)? 2. A random sample of 36 freshmen females at Oxford College was obtained. What is the probability that the mean of this group will be less than 64 inches? 3. In a random sample of 1000 females, how many would you expect to be shorter than 60 inches (or 5 feet)? 4. If a basketball coach were interested only in females in the 90th percentile (or top 10%) by height, what height would be the cut-off score for female heights? 10. A shipment of 25 computers contains 10 computers with a defective DVD burner. What is the probability, if a random sample of 6 computers is selected and then tested, that the sample will contain at least 1 defective computer? 11. In a club of 25 members there are 10 married men and 15 unmarried men. What is the probability that a subcommittee of 6 will have at least 1 married man? 12. It is known that 5% of all tax returns contain at least one error. For a random selection of 10 tax returns, what is the probability that at most 2 of them contain errors? 13. Assume 75% of Americans wear seatbelts. If 200 Americans are selected at random, find the expected number of people in this group that wear their seatbelts. 14. Toss a fair coin 100 times. Let X be the number of heads showing. Give the mean and the standard deviation for this experiment. 15. The probabilities that a game of chance results in a win, loss, or tie for the player to go first is 0.48, 0.46, and 0.06, respectively. If the game is played 8 times, find the probability that there will be 3 wins, 4 losses and 1 tie. 16. A DVD has a defect on average every 2 inches along its track. What is the probability of seeing less than 3 defects within a 5 inch section of its track? 17. Birth weights of male babies are normally distributed with a mean of 7.5 pounds and a standard deviation of 1.5. 1. What is the probability that a male baby, selected at random, will weigh more than 8 pounds? 2. A random sample of 49 male babies was obtained. What is the probability that the mean of this sample will weigh more than 8 pounds? 3. Babies with birth weights below 5 pounds generally are considered as premature. In a random sample of 1000 male babies, how many would you expect to weigh less than 5 pounds? 18. Usually 50 potential jurors are held to compose a jury of 12. Suppose that this group of 50 has 15 females and 35 males. 1. What is the probability that the jury will be made up of all the same sex? 2. What is the probability that the jury will be made up of 4 females and 8 males? 19. The SAT scores are normally distributed with a mean for both the verbal section and the mathematics section of 500 and a standard deviation of 150 points. The range of scores for each section is 200 to 800. If an admissions office wanted to accept students who were in the top 40% verbally and the top 30% mathematically, what would the cut-off scores be? 20. Compare and contrast the Poisson distribution with the Binomial distribution. 21. The probability that a worker will become disabled in a one-year period is 0.0045. If there are 500 workers on an assembly line, find the probability that more than 4 workers will become disabled. (Use the Poisson distribution to approximate the probability.) 22. Assume that customers enter a large store at the rate of 60 per hour (one per minute). Find the probability that during a five-minute interval no one will enter the store. 23. Given the function defined below,$$f(x) = \frac{x+1}{6} \textrm{ for } x=0,1,2
1. Explain clearly why this is a pdf.
2. Find the mean and standard deviation of this function.
24. You have a box with 25 different colored balls as follows: 4 red, 6 blue, 10 white, and 5 green.

1. What is the probability that there will be exactly one of each color if four balls are drawn?
2. What is the probability that there will be two white balls if two balls are drawn?
25. Assume that the probability of a college student having a car on campus is 0.30. A random sample of 12 students is taken. What is the probability that at least 4 will have a car on campus?

1. Work the problem using the Binomial distribution.
2. Approximate the probability using the standard Normal distribution.
3. Is the approximation reasonable? Explain clearly.
26. A bridge hand contains 13 cards. What is the probability that a bridge hand will contain 9 spades, all four aces, and one non-spade, non-ace.

27. The switchboard receives an average of 3 calls per minute. For a randomly selected minute, what is the probability that there will be at least 4 calls?