Question 5: Over Christmas break, I was at an Elk Lodge that offered the following dice...

Over Christmas break, I was at an Elk Lodge that offered the following dice game that...

Over Christmas break, I was at an Elk Lodge that offered the following dice game that cost $1 to play. You roll 5 six-sided dice and win the money in the pot if all 5 dice are the same (e.g., all ones). When I was there, the pot was at $156. a) Based upon probability, should I have played? b) Based upon probability, what is the minimum amount of money required in the pot for me to play?

. A dice game is played as follows: you pay one dollar to play, then you...

. A dice game is played as follows: you pay one dollar to play, then you roll a fair six-sided die. If you roll a six, you win three dollars. Someone claims to have won a thousand dollars playing this game nine thousand times. How unlikely is this? Find an upper bound for the probability that a person playing this game will win at least a thousand dollars.

A different game is also played with a 10-sided dice. The player initially bets $1 to...

A different game is also played with a 10-sided dice. The player initially bets $1 to go in their pot of money. If the player rolls a 5, their pot is multiplied by 5, and if they player doesn’t roll a 5, their pot is multiplied by (1/5). A player plays 12 games. Find the mean value of the pot at the end of 12 games Find the most probable value of the pot at the end of 12 games....

Suppose that you are offered the following "deal." You roll a six sided die. If you...

Suppose that you are offered the following "deal." You roll a six sided die. If you roll a 6, you win $13. If you roll a 4 or 5, you win $5. Otherwise, you pay $6. a. Complete the PDF Table. List the X values, where X is the profit, from smallest to largest. Round to 4 decimal places where appropriate. Probability Distribution Table X P(X) b. Find the expected profit. $ ____ (Round to the nearest cent) c. Interpret...

Suppose that you are offered the following "deal." You roll a six sided die. If you...

Suppose that you are offered the following "deal." You roll a six sided die. If you roll a 6, you win $12. If you roll a 2, 3, 4 or 5, you win $1. Otherwise, you pay $10. a. Complete the PDF Table. List the X values, where X is the profit, from smallest to largest. Round to 4 decimal places where appropriate. Probability Distribution Table X P(X) b. Find the expected profit. $ (Round to the nearest cent) c....

Suppose that you are offered the following "deal." You roll a six sided die. If you...

Suppose that you are offered the following "deal." You roll a six sided die. If you roll a 6, you win $9. If you roll a 2, 3, 4 or 5, you win $1. Otherwise, you pay $6 a. Complete the PDF Table. List the X values, where X is the profit, from smallest to largest. Round to 4 decimal places where appropriate. Probability Distribution Table    X P(X)    b. Find the expected profit. $ (Round to the nearest...

Suppose that you are offered the following "deal." You roll a six sided die. If you...

Suppose that you are offered the following "deal." You roll a six sided die. If you roll a 6, you win $20. If you roll a 4 or 5, you win $1. Otherwise, you pay $8. a. Complete the PDF Table. List the X values, where X is the profit, from smallest to largest. Round to 4 decimal places where appropriate. Probability Distribution Table X P(X) b. Find the expected profit. $ (Round to the nearest cent) c. Interpret the...

Suppose that you are offered the following "deal." You roll a six sided die. If you...

Suppose that you are offered the following "deal." You roll a six sided die. If you roll a 6, you win $7. If you roll a 4 or 5, you win $1. Otherwise, you pay $8. a. Complete the PDF Table. List the X values, where X is the profit, from smallest to largest. Round to 4 decimal places where appropriate. Probability Distribution Table X P(X) b. Find the expected profit. $ (Round to the nearest cent) c. Interpret the...

Suppose that you are offered the following "deal." You roll a six sided die. If you...

Suppose that you are offered the following "deal." You roll a six sided die. If you roll a 6, you win $17. If you roll a 4 or 5, you win $2. Otherwise, you pay $10. a. Complete the PDF Table. List the X values, where X is the profit, from smallest to largest. Round to 4 decimal places where appropriate. Probability Distribution Table X P(X) b. Find the expected profit. $ (Round to the nearest cent) c. Interpret the...

Problem 4)A simplified version of the dice game 10,000 is played using 5 dice. The player...

Problem 4)A simplified version of the dice game 10,000 is played using 5 dice. The player rolls the 5 six-sided dice, each 1 that is rolled, the player achieves a score of 100. A) How many possible ways are there to roll i l's over these 5 dice? (Hint: use combinations) B) The probability of any one dice rolling to a value of 1 is 1/5 (since each dice has six sides). Use the binomial probability distribution. Calculate the probability...