A gabler bets on red at a roulette table 100 times. The probability of winning on...

A gambler bets repeatedly $1 on red at the roulette (there are 18 red slots and...

A gambler bets repeatedly $1 on red at the roulette (there are 18 red slots and 38 slots in all). He wins $1 if red comes up loses $1 otherwise. What is the probability that he will be ahead. (a) After 100 bets? (b) After 1,000 bets?

The game of roulette involves spinning a wheel with 38 slots: 18 red, 18 black, and...

The game of roulette involves spinning a wheel with 38 slots: 18 red, 18 black, and 2 green. A ball is spun onto the wheel and will eventually land in a slot, where each slot has an equal chance of capturing the ball. One popular bet is that it will stop on a red slot; such a bet has an 18/38 chance of winning. Suppose a gambler bets on red in 6 different spins. a) Find the probability the gambler...

Suppose that, over the course of several days, a gambler makes 2400 row bets in roulette,...

Suppose that, over the course of several days, a gambler makes 2400 row bets in roulette, betting $1 each time. For a row bet, the gambler selects a row of 3 spaces out of the 38 possible spaces on a roulette table. If the gambler wins on one play, the gambler get his/her dollar back plus eleven more, for a net gain of $11. However, if the gambler loses, he/she loses $1. Find the probability that, after making these 2400...

Suppose that, over the course of several days, a gambler makes 2600 row bets in roulette,...

Suppose that, over the course of several days, a gambler makes 2600 row bets in roulette, betting $1 each time. For a row bet, the gambler selects a row of 3 spaces out of the 38 possible spaces on a roulette table. If the gambler wins on one play, the gambler get his/her dollar back plus eleven more, for a net gain of $11. However, if the gambler loses, he/she loses $1. Find the probability that, after making these 2600...

Consider the casino game of Roulette where players place $1 bets on color (either red or...

Consider the casino game of Roulette where players place $1 bets on color (either red or black). The probability of winning a single bet is 18/38, slightly in the casino’s favor. a. For 1000 such bets, the expected gain for the casino is $52.63, the standard deviation is $31.58, and the distribution of possible gains is approximately normal. Find the probability that the casino makes money overall after 1000 bets. b. For 5000 such bets, the expected gain for the...

A person has $32. The person decides to play roulette. She always bets on Red. (To...

A person has $32. The person decides to play roulette. She always bets on Red. (To simplify the problem assume that P(Red) = .5) a) Let X be the random variable for the amount that she makes if she bets $8 on each roll and does this for four rolls. What is the probability function for X? What is E(X)? b) Let Y be the amount that she makes if she follows the following strategy. She bets $1 on roll...

A man is playing roulette and is playing bets on the red color. Assume that the...

A man is playing roulette and is playing bets on the red color. Assume that the roulette has half of its numbers red and the other black. The man will place a $10 bet on red. If he loses, he puts $30 again on red. If he loses again, he places $90 and so on. Every time he loses he triples the amount and bet on red again. If he wins he stops. What is the probability he will lose...

You go to the casino and play roulette. You decide to place bets that the ball...

You go to the casino and play roulette. You decide to place bets that the ball will land on the number 18. On a roulette wheel there are the numbers 1-36 and 00. Thus, the likelihood that you win any one spin is 1 in 38. You decide to play 20 times, thus you are in binomial land and the potential ersults of your gambling will be drawn from a binomial distribution B(20,1/38). What is the probability that you win:...

Please answer part d !!! 7.A gambler plays roulette 100 times, betting a dollar on the...

Please answer part d !!! 7.A gambler plays roulette 100 times, betting a dollar on the numbers 1-12 each time. This particular bet pays 2 to 1 (you win $2 if the outcome is a number between 1 and 12 and lose $1 if not), and the chance of winning is 12/38 = 6/19. (You don’t need to know anything more about roulette than is given in this problem to solve it.) Fill in the blanks.(a) In 100 plays, the...

A gambler bets n times. Each time the gambler bets, 20% of the time he wins...

A gambler bets n times. Each time the gambler bets, 20% of the time he wins $10 and 80% of the time he loses $5. What is the expected gain (which can be negative) after n bets?