Each game costs $5 and four COINS are flipped simultaneously. If you get one head you...

There are two coins and one of them will be chosen randomly and flipped 10 times....

There are two coins and one of them will be chosen randomly and flipped 10 times. When coin 1 is flipped, the probability that it will land on heads is 0.50. When coin 2 is flipped, the probability that it will land on heads is 0.75. What is the probability that the coin lands on tails on exactly 4 of the 10 flips? Round the answer to four decimal places.

Consider a game in which a coin will be flipped three times. For each heads you...

Consider a game in which a coin will be flipped three times. For each heads you will be paid $100. Assume that the coin comes up heads with probability ⅔. a. Construct a table of the possibilities and probabilities in this game. The table below gives you a hint on how to do this and shows you that there are now eight possible outcomes. (3 points) b. Compute the expected value of the game. (2 points) c. How much would...

Let X denote the number of heads than occur when four coins are tossed at random....

Let X denote the number of heads than occur when four coins are tossed at random. Under the assumptions that the four coins are independent and the probability of heads on each coin is 1/2,X is B(4,1/2). One hundred repetitions of this experiment results in 0,1,2,3, and 4 heads being observed on 7,18,40,31, and 4 trials, respectively. Do these results support the assumption that the distribution of X is B(4,1/2)?

A particular coin is biased. Each timr it is flipped, the probability of a head is...

A particular coin is biased. Each timr it is flipped, the probability of a head is P(H)=0.55 and the probability of a tail is P(T)=0.45. Each flip os independent of the other flips. The coin is flipped twice. Let X be the total number of times the coin shows a head out of two flips. So the possible values of X are x=0,1, or 2. a. Compute P(X=0), P(X=1), P(X=2). b. What is the probability that X>=1? c. Compute the...

Choose one of the following games from the Games Fair: Four Coin Flip Each flip of...

Choose one of the following games from the Games Fair: Four Coin Flip Each flip of the four coins costs 10 points You win: 10 points if you flip two heads 30 points if you flip no heads Five Card Shuffler Each hand of five cards costs 10 points You win: 20 points for no hearts 0 points for one heart 10 points for two hearts 20 points for three hearts 50 points for four hearts 1000 points for five...

A bar has a dice game that works as follows: You simultaneously roll 5 dice, and...

A bar has a dice game that works as follows: You simultaneously roll 5 dice, and if all 5 dice are the same value, you win. If your dice are not all the same, you get to re-roll all 5 dice again. You get three tries in total. What is the probability of winning? That is, what is the probability that in your three tries, at least one of your rolls consists of five-of-a-kind?

A black bag contains two coins: one fair, and the other biased (with probability 3/4 of...

A black bag contains two coins: one fair, and the other biased (with probability 3/4 of landing heads). Suppose you pick a coin from the bag — you are twice as likely to pick the fair coin as the biased one — and flip it 8 times. Given that three of the first four flips land heads, what is the expected number of heads in the 8 flips?

Three coins are in a barrel with respective probabilites of heads 0.3, 0.5, and 0.7. One...

Three coins are in a barrel with respective probabilites of heads 0.3, 0.5, and 0.7. One coin is randomly chosen and flipped 10 times. Let N = # of heads obtained in the ten flips. a. Find P(N = 0). b. Find P(N=n), n = 0, 1, 2, ..., 10. c. Does N have a binomial distribution? Explain. d. If you win $1 for each heads that appears, and lose $1 for each tails, is this a fair game? Explain.

Suppose that you get the opportunity to play a coin flipping game where if your first...

Suppose that you get the opportunity to play a coin flipping game where if your first flip is a “head”, then you get to flip five more times; otherwise you only get to flip two more times. Assuming that the coin is fair and that each flip is independent, what is the expected total number of “heads”?

7. If you flip 10 fair coins, what is the probability that: (a) Exactly 5 of...

7. If you flip 10 fair coins, what is the probability that: (a) Exactly 5 of them are “heads”? (b) At least 8 of them are “heads”? 8. Urn A has four red balls and two white balls, and urn B has three red balls and four white balls. A fair coin is tossed. If it lands heads up, a ball is drawn from urn A; otherwise, a ball is drawn from urn B. Compute (a) the probability a red...