*Use the following information to answer the next five exercises:* A company wants to evaluate its attrition rate, in other words, how long new hires stay with the company. Over the years, they have established the following probability distribution.

Let *X* = the number of years a new hire will stay with the company.

Let *P*(*x*) = the probability that a new hire will stay with the company *x* years.

*P*(*x* = 4) = _______

On average, how long would you expect a new hire to stay with the company?

*Use the following information to answer the next six exercises:* A baker is deciding how many batches of muffins to make to sell in his bakery. He wants to make enough to sell every one and no fewer. Through observation, the baker has established a probability distribution.

x | P(x) |
---|---|

1 | 0.15 |

2 | 0.35 |

3 | 0.40 |

4 | 0.10 |

Define the random variable *X*.

What is the probability the baker will sell exactly one
batch? *P*(*x* = 1) = _______

*Use the following information to answer the next four exercises:* Ellen has music practice three days a week. She practices for all of the three days 85% of the time, two days 8% of the time, one day 4% of the time, and no days 3% of the time. One week is selected at random.

Define the random variable *X*.

We know that for a probability distribution function to be discrete, it must have two characteristics. One is that the sum of the probabilities is one. What is the other characteristic?

*Use the following information to answer the next five exercises:* Javier volunteers in community events each month. He does not do more than five events in a month. He attends exactly five events 35% of the time, four events 25% of the time, three events 20% of the time, two events 10% of the time, one event 5% of the time, and no events 5% of the time.

What values does *x* take on?

Find the probability that Javier volunteers for less than three events each month. *P*(*x* < 3) = _______

Find the probability that Javier volunteers for at least one event each month. *P*(*x* > 0) = _______

Complete the expected value table.

x |
P(x) |
x*P(x) |
---|---|---|

0 | 0.2 | |

1 | 0.2 | |

2 | 0.4 | |

3 | 0.2 |

Find the expected value from the expected value table.

x |
P(x) |
x*P(x) |
---|---|---|

2 | 0.1 | 2(0.1) = 0.2 |

4 | 0.3 | 4(0.3) = 1.2 |

6 | 0.4 | 6(0.4) = 2.4 |

8 | 0.2 | 8(0.2) = 1.6 |

Find the standard deviation.

x |
P(x) |
x*P(x) |
(x – μ)^{2}P(x) |
---|---|---|---|

2 | 0.1 | 2(0.1) = 0.2 | (2–5.4)^{2}(0.1) = 1.156 |

4 | 0.3 | 4(0.3) = 1.2 | (4–5.4)^{2}(0.3) = 0.588 |

6 | 0.4 | 6(0.4) = 2.4 | (6–5.4)^{2}(0.4) = 0.144 |

8 | 0.2 | 8(0.2) = 1.6 | (8–5.4)^{2}(0.2) = 1.352 |

Identify the mistake in the probability distribution table.

x |
P(x) |
x*P(x) |
---|---|---|

1 | 0.15 | 0.15 |

2 | 0.25 | 0.50 |

3 | 0.30 | 0.90 |

4 | 0.20 | 0.80 |

5 | 0.15 | 0.75 |

Identify the mistake in the probability distribution table.

x |
P(x) |
x*P(x) |
---|---|---|

1 | 0.15 | 0.15 |

2 | 0.25 | 0.40 |

3 | 0.25 | 0.65 |

4 | 0.20 | 0.85 |

5 | 0.15 | 1 |

*Use the following information to answer the next five exercises:* A physics professor wants to know what percent of physics majors will spend the next several years doing post-graduate research. They have the following probability distribution.

x |
P(x) |
x*P(x) |
---|---|---|

1 | 0.35 | |

2 | 0.20 | |

3 | 0.15 | |

4 | ||

5 | 0.10 | |

6 | 0.05 |

Define *P*(*x*), or the probability of *x*.

Find the probability that a physics major will do post-graduate research for four years. *P*(*x* = 4) = _______

FInd the probability that a physics major will do post-graduate research for at most three years. *P*(*x* ≤ 3) = _______

On average, how many years would you expect a physics major to spend doing post-graduate research?

*Use the following information to answer the next seven exercises:* A ballet instructor is interested in knowing what percent of each year's class will continue on to the next, so that she can plan what classes to offer. Over the years, she has established the following probability distribution.

- Let
*X*= the number of years a student will study ballet with the teacher. - Let
*P*(*x*) = the probability that a student will study ballet*x*years.

Complete Table 4.28 using the data provided.

x |
P(x) |
x*P(x) |
---|---|---|

1 | 0.10 | |

2 | 0.05 | |

3 | 0.10 | |

4 | ||

5 | 0.30 | |

6 | 0.20 | |

7 | 0.10 |

*P*(*x* = 4) = _______

On average, how many years would you expect a child to study ballet with this teacher?

What does the column "*x***P*(*x*)" sum to and why?

You are playing a game by drawing a card from a standard deck and replacing it. If the card is a face card, you win $30. If it is not a face card, you pay $2. There are 12 face cards in a deck of 52 cards. What is the expected value of playing the game?

You are playing a game by drawing a card from a standard deck and replacing it. If the card is a face card, you win $30. If it is not a face card, you pay $2. There are 12 face cards in a deck of 52 cards. Should you play the game?

*Use the following information to answer the next eight exercises:* The Higher Education Research Institute at UCLA collected data from 203,967 incoming first-time, full-time first-year students from 270 four-year colleges and universities in the U.S. 71.3% of those students replied that, yes, they believe that same-sex couples should have the right to legal marital status. Suppose that you randomly pick eight first-time, full-time first-year students from the survey. You are interested in the number that believes that same sex-couples should have the right to legal marital status.

*X* ~ _____(_____,_____)

Construct the probability distribution function (PDF).

x |
P(x) |
---|---|

What is the standard deviation (*σ*)?

What is the probability that at least two of the first-year students reply “yes”?

*Use the following information to answer the next six exercises:* The Higher Education Research Institute at UCLA collected data from 203,967 incoming first-time, full-time first-year students from 270 four-year colleges and universities in the U.S. 71.3% of those students replied that, yes, they believe that same-sex couples should have the right to legal marital status. Suppose that you randomly select first-year students from the study until you find one who replies “yes.” You are interested in the number of first-year students you must ask.

*X* ~ _____(_____,_____)

Construct the probability distribution function (PDF). Stop at *x* = 6.

x |
P(x) |
---|---|

1 | |

2 | |

3 | |

4 | |

5 | |

6 |

On average (*μ*), how many first-year students would you expect to have to ask until you found one who replies "yes?"

What is the probability that you will need to ask fewer than three first-year students?

*Use the following information to answer the next five exercises:* Suppose that a group of statistics students is divided into two groups: business majors and non-business majors. There are 16 business majors in the group and seven non-business majors in the group. A random sample of nine students is taken. We are interested in the number of business majors in the sample.

*X* ~ _____(_____,_____)

Find the standard deviation.

*Use the following information to answer the next six exercises:* On average, a clothing store gets 120 customers per day.

Assume the event occurs independently in any given day. Define the random variable *X*.

What is the probability of getting 150 customers in one day?

What is the probability of getting 35 customers in the first four hours? Assume the store is open 12 hours each day.

What is the probability that the store will have more than 12 customers in the first hour?

What is the probability that the store will have fewer than 12 customers in the first two hours?

Which type of distribution can the Poisson model be used to approximate? When would you do this?

*Use the following information to answer the next six exercises:* On average, eight teens in the U.S. die from motor vehicle injuries per day. As a result, states across the country are debating raising the driving age.

*X* ~ _____(_____,_____)

For the given values of the random variable *X*, fill in the corresponding probabilities.

Is it likely that there will be no teens killed from motor vehicle injuries on any given day in the U.S? Justify your answer numerically.

Is it likely that there will be more than 20 teens killed from motor vehicle injuries on any given day in the U.S.? Justify your answer numerically.