Books(current) Courses (current) Earn đź’° Log in(current)

Introductory Statistics

Barbara Illowsky, Susan Dean

Chapter 5

Continuous Random Variables

Educators


Problem 1

Which type of distribution does the graph illustrate?
GRAPH CANNOT COPY

Check back soon!

Problem 2

Which type of distribution does the graph illustrate?
GRAPH CANNOT COPY

Check back soon!

Problem 3

Which type of distribution does the graph illustrate?
GRAPH CANNOT COPY

Check back soon!

Problem 4

What does the shaded area represent? $P(-x < -)$
GRAPH CANNOT COPY

Check back soon!

Problem 5

What does the shaded area represent? $P(\text {____}x<\text {____})$
GRAPH CANNOT COPY

Check back soon!

Problem 6

For a continuous probablity distribution, $0 \leq x \leq 15 .$ What is $P(x > 15) ?$

Check back soon!

Problem 7

What is the area under $f(x)$ if the function is a continuous probability density function?

Check back soon!

Problem 8

For a continuous probability distribution, $0 \leq x \leq 10$ . What is $P(x=7) ?$

Check back soon!

Problem 9

A continuous probability function is restricted to the portion between $x=0$ and $7 .$ What is $P(x=10) ?$

Check back soon!

Problem 10

$f(x)$ for a continuous probability function is $\frac{1}{5},$ and the function is restricted to $0 \leq x \leq 5 .$ What is $P(x < 0) ?$

Check back soon!

Problem 11

$f(x),$ a continuous probability function, is equal to $\frac{1}{12},$ and the function is restricted to $0 \leq x \leq 12 .$ What is $P(0 < x < $ 12$) ?$

Check back soon!

Problem 12

Find the probability that $x$ falls in the shaded area.

Check back soon!

Problem 13

Find the probability that $x$ falls in the shaded area.

Check back soon!

Problem 14

Find the probability that $x$ falls in the shaded area.

Check back soon!

Problem 15

$f(x),$ a continuous probability function, is equal to $\frac{1}{3}$ and the function is restricted to $1 \leq x \leq 4 .$ Describe $P\left(x > \frac{3}{2}\right)$

Check back soon!

Problem 16

Use the following information to answer the next ten questions. The data that follow are the square footage (in 1,000 feet squared) of 28 homes.
$$\begin{array}{|c|c|c|c|c|c|c|}\hline 1.5 & {2.4} & {3.6} & {2.6} & {1.6} & {2.4} & {2.0} \\ \hline 3.5 & {2.5} & {1.8} & {2.4} & {2.5} & {3.5} & {4.0} \\ \hline 2.6 & {1.6} & {2.2} & {1.8} & {3.8} & {2.5} & {1.5} \\\hline {2.8}&{1.8} &{4.5}&{1.9} &{1.9}& {3.1}& {1.6}\\\hline\end{array}$$
$$\text{Table 5.4}$$
The sample mean $=2.50$ and the sample standard deviation $=0.8302.$
The distribution can be written as $X \sim U(1.5,4.5).$
What type of distribution is this?

Tony W.
Numerade Educator

Problem 17

Use the following information to answer the next ten questions. The data that follow are the square footage (in 1,000 feet squared) of 28 homes.
$$\begin{array}{|c|c|c|c|c|c|c|}\hline 1.5 & {2.4} & {3.6} & {2.6} & {1.6} & {2.4} & {2.0} \\ \hline 3.5 & {2.5} & {1.8} & {2.4} & {2.5} & {3.5} & {4.0} \\ \hline 2.6 & {1.6} & {2.2} & {1.8} & {3.8} & {2.5} & {1.5} \\\hline {2.8}&{1.8} &{4.5}&{1.9} &{1.9}& {3.1}& {1.6}\\\hline\end{array}$$
$$\text{Table 5.4}$$
The sample mean $=2.50$ and the sample standard deviation $=0.8302.$
The distribution can be written as $X \sim U(1.5,4.5).$
In this distribution, outcomes are equally likely. What does this mean?

Tony W.
Numerade Educator

Problem 18

Use the following information to answer the next ten questions. The data that follow are the square footage (in 1,000 feet squared) of 28 homes.
$$\begin{array}{|c|c|c|c|c|c|c|}\hline 1.5 & {2.4} & {3.6} & {2.6} & {1.6} & {2.4} & {2.0} \\ \hline 3.5 & {2.5} & {1.8} & {2.4} & {2.5} & {3.5} & {4.0} \\ \hline 2.6 & {1.6} & {2.2} & {1.8} & {3.8} & {2.5} & {1.5} \\\hline {2.8}&{1.8} &{4.5}&{1.9} &{1.9}& {3.1}& {1.6}\\\hline\end{array}$$
$$\text{Table 5.4}$$
The sample mean $=2.50$ and the sample standard deviation $=0.8302.$
The distribution can be written as $X \sim U(1.5,4.5).$
What is the height of $f(x)$ for the continuous probability distribution?

Tony W.
Numerade Educator

Problem 19

Use the following information to answer the next ten questions. The data that follow are the square footage (in 1,000 feet squared) of 28 homes.
$$\begin{array}{|c|c|c|c|c|c|c|}\hline 1.5 & {2.4} & {3.6} & {2.6} & {1.6} & {2.4} & {2.0} \\ \hline 3.5 & {2.5} & {1.8} & {2.4} & {2.5} & {3.5} & {4.0} \\ \hline 2.6 & {1.6} & {2.2} & {1.8} & {3.8} & {2.5} & {1.5} \\\hline {2.8}&{1.8} &{4.5}&{1.9} &{1.9}& {3.1}& {1.6}\\\hline\end{array}$$
$$\text{Table 5.4}$$
The sample mean $=2.50$ and the sample standard deviation $=0.8302.$
The distribution can be written as $X \sim U(1.5,4.5).$
What are the constraints for the values of $x ?$

Tony W.
Numerade Educator

Problem 20

Use the following information to answer the next ten questions. The data that follow are the square footage (in 1,000 feet squared) of 28 homes.
$$\begin{array}{|c|c|c|c|c|c|c|}\hline 1.5 & {2.4} & {3.6} & {2.6} & {1.6} & {2.4} & {2.0} \\ \hline 3.5 & {2.5} & {1.8} & {2.4} & {2.5} & {3.5} & {4.0} \\ \hline 2.6 & {1.6} & {2.2} & {1.8} & {3.8} & {2.5} & {1.5} \\\hline {2.8}&{1.8} &{4.5}&{1.9} &{1.9}& {3.1}& {1.6}\\\hline\end{array}$$
$$\text{Table 5.4}$$
The sample mean $=2.50$ and the sample standard deviation $=0.8302.$
The distribution can be written as $X \sim U(1.5,4.5).$
Graph $P(2 < x < 3)$

Tony W.
Numerade Educator

Problem 21

Use the following information to answer the next ten questions. The data that follow are the square footage (in 1,000 feet squared) of 28 homes.
$$\begin{array}{|c|c|c|c|c|c|c|}\hline 1.5 & {2.4} & {3.6} & {2.6} & {1.6} & {2.4} & {2.0} \\ \hline 3.5 & {2.5} & {1.8} & {2.4} & {2.5} & {3.5} & {4.0} \\ \hline 2.6 & {1.6} & {2.2} & {1.8} & {3.8} & {2.5} & {1.5} \\\hline {2.8}&{1.8} &{4.5}&{1.9} &{1.9}& {3.1}& {1.6}\\\hline\end{array}$$
$$\text{Table 5.4}$$
The sample mean $=2.50$ and the sample standard deviation $=0.8302.$
The distribution can be written as $X \sim U(1.5,4.5).$
What is $P(2 < x < 3) ?$

Tony W.
Numerade Educator

Problem 22

Use the following information to answer the next ten questions. The data that follow are the square footage (in 1,000 feet squared) of 28 homes.
$$\begin{array}{|c|c|c|c|c|c|c|}\hline 1.5 & {2.4} & {3.6} & {2.6} & {1.6} & {2.4} & {2.0} \\ \hline 3.5 & {2.5} & {1.8} & {2.4} & {2.5} & {3.5} & {4.0} \\ \hline 2.6 & {1.6} & {2.2} & {1.8} & {3.8} & {2.5} & {1.5} \\\hline {2.8}&{1.8} &{4.5}&{1.9} &{1.9}& {3.1}& {1.6}\\\hline\end{array}$$
$$\text{Table 5.4}$$
The sample mean $=2.50$ and the sample standard deviation $=0.8302.$
The distribution can be written as $X \sim U(1.5,4.5).$
What is $P(x < 3.5 | x < 4) ?$

Tony W.
Numerade Educator

Problem 23

Use the following information to answer the next ten questions. The data that follow are the square footage (in 1,000 feet squared) of 28 homes.
$$\begin{array}{|c|c|c|c|c|c|c|}\hline 1.5 & {2.4} & {3.6} & {2.6} & {1.6} & {2.4} & {2.0} \\ \hline 3.5 & {2.5} & {1.8} & {2.4} & {2.5} & {3.5} & {4.0} \\ \hline 2.6 & {1.6} & {2.2} & {1.8} & {3.8} & {2.5} & {1.5} \\\hline {2.8}&{1.8} &{4.5}&{1.9} &{1.9}& {3.1}& {1.6}\\\hline\end{array}$$
$$\text{Table 5.4}$$
The sample mean $=2.50$ and the sample standard deviation $=0.8302.$
The distribution can be written as $X \sim U(1.5,4.5).$
What is $P(x=1.5) ?$

Tony W.
Numerade Educator

Problem 24

Use the following information to answer the next ten questions. The data that follow are the square footage (in 1,000 feet squared) of 28 homes.
$$\begin{array}{|c|c|c|c|c|c|c|}\hline 1.5 & {2.4} & {3.6} & {2.6} & {1.6} & {2.4} & {2.0} \\ \hline 3.5 & {2.5} & {1.8} & {2.4} & {2.5} & {3.5} & {4.0} \\ \hline 2.6 & {1.6} & {2.2} & {1.8} & {3.8} & {2.5} & {1.5} \\\hline {2.8}&{1.8} &{4.5}&{1.9} &{1.9}& {3.1}& {1.6}\\\hline\end{array}$$
$$\text{Table 5.4}$$
The sample mean $=2.50$ and the sample standard deviation $=0.8302.$
The distribution can be written as $X \sim U(1.5,4.5).$
What is the $90^{\text { th }}$ percentile of square footage for homes?

Tony W.
Numerade Educator

Problem 25

Use the following information to answer the next ten questions. The data that follow are the square footage (in 1,000 feet squared) of 28 homes.
$$\begin{array}{|c|c|c|c|c|c|c|}\hline 1.5 & {2.4} & {3.6} & {2.6} & {1.6} & {2.4} & {2.0} \\ \hline 3.5 & {2.5} & {1.8} & {2.4} & {2.5} & {3.5} & {4.0} \\ \hline 2.6 & {1.6} & {2.2} & {1.8} & {3.8} & {2.5} & {1.5} \\\hline {2.8}&{1.8} &{4.5}&{1.9} &{1.9}& {3.1}& {1.6}\\\hline\end{array}$$
$$\text{Table 5.4}$$
The sample mean $=2.50$ and the sample standard deviation $=0.8302.$
The distribution can be written as $X \sim U(1.5,4.5).$
Find the probability that a randomly selected home has more than 3,000 square feet given that you already know the house has more than 2,000 square feet.

Tony W.
Numerade Educator

Problem 26

Use the following information to answer the next eight exercises. A distribution is given as $X \sim U(0,12)$.
What is a? What does it represent?

Tony W.
Numerade Educator

Problem 27

Use the following information to answer the next eight exercises. A distribution is given as $X \sim U(0,12)$.
What is b? What does it represent?

Tony W.
Numerade Educator

Problem 28

Use the following information to answer the next eight exercises. A distribution is given as $X \sim U(0,12)$.
What is the probability density function?

Tony W.
Numerade Educator

Problem 29

Use the following information to answer the next eight exercises. A distribution is given as $X \sim U(0,12)$.
What is the theoretical mean?

Tony W.
Numerade Educator

Problem 30

Use the following information to answer the next eight exercises. A distribution is given as $X \sim U(0,12)$.
What is the theoretical standard deviation?

Tony W.
Numerade Educator

Problem 31

Use the following information to answer the next eight exercises. A distribution is given as $X \sim U(0,12)$.
Draw the graph of the distribution for $P(x > 9)$

Tony W.
Numerade Educator

Problem 32

Use the following information to answer the next eight exercises. A distribution is given as $X \sim U(0,12)$.
Find $P(x > 9)$

Tony W.
Numerade Educator

Problem 33

Use the following information to answer the next eight exercises. A distribution is given as $X \sim U(0,12)$.
Find the $40^{\text { th }}$ percentile.

Tony W.
Numerade Educator

Problem 34

Use the following information to answer the next eleven exercises. The age of cars in the staff parking lot of a suburban college is uniformly distributed from six months (0.5 years) to 9.5 years.
What is being measured here?

Tony W.
Numerade Educator

Problem 35

Use the following information to answer the next eleven exercises. The age of cars in the staff parking lot of a suburban college is uniformly distributed from six months (0.5 years) to 9.5 years.
In words, define the random variable $X$ .

Tony W.
Numerade Educator

Problem 36

Use the following information to answer the next eleven exercises. The age of cars in the staff parking lot of a suburban college is uniformly distributed from six months (0.5 years) to 9.5 years.
Are the data discrete or continuous?

Tony W.
Numerade Educator

Problem 37

Use the following information to answer the next eleven exercises. The age of cars in the staff parking lot of a suburban college is uniformly distributed from six months (0.5 years) to 9.5 years.
The interval of values for $x$ is___________.

Tony W.
Numerade Educator

Problem 38

Use the following information to answer the next eleven exercises. The age of cars in the staff parking lot of a suburban college is uniformly distributed from six months (0.5 years) to 9.5 years.
The distribution for X is ______.

Tony W.
Numerade Educator

Problem 39

Use the following information to answer the next eleven exercises. The age of cars in the staff parking lot of a suburban college is uniformly distributed from six months (0.5 years) to 9.5 years.
Write the probability density function.

Tony W.
Numerade Educator

Problem 40

Graph the probability distribution.
a. Sketch the graph of the probability distribution.
b. Identify the following values:
i. Lowest value for $\overline{x} \text{____:}$
ii. Highest value for $\overline{x}\text{____:} $
iii. Height of the rectangle:____:
iv. Label for $x$ -axis (words):\text____
v. Label for $y$ -axis (words):____

Tony W.
Numerade Educator

Problem 41

Find the average age of the cars in the lot.

Tony W.
Numerade Educator

Problem 42

Find the probability that a randomly chosen car in the lot was less than four years old.
a. Sketch the graph, and shade the area of interest.
b. Find the probability. $P(x < 4)=$________

Tony W.
Numerade Educator

Problem 43

Considering only the cars less than 7.5 years old, find the probability that a randomly chosen car in the lot was less than four years old.
a. Sketch the graph, shade the area of interest.
b. Find the probability. $P(x < 4 | x<7.5)=$_______

Tony W.
Numerade Educator

Problem 44

What has changed in the previous two problems that made the solutions different?

Tony W.
Numerade Educator

Problem 45

Find the third quartile of ages of cars in the lot. This means you will have to find the value such that $\frac{3}{4},$ or $75 \%,$ of the cars are at most (less than or equal to) that age.
a. Sketch the graph, and shade the area of interest.
b. Find the value $k$ such that $P(x<k)=0.75$ .
c. The third quartile is ___________

Tony W.
Numerade Educator

Problem 46

Use the following information to answer the next ten exercises. A customer service representative must spend different amounts of time with each customer to resolve various concerns. The amount of time spent with each customer can be modeled by the following distribution: $X \sim Exp(0.2)$
What type of distribution is this?

Check back soon!

Problem 47

Use the following information to answer the next ten exercises. A customer service representative must spend different amounts of time with each customer to resolve various concerns. The amount of time spent with each customer can be modeled by the following distribution: $X \sim Exp(0.2)$
Are outcomes equally likely in this distribution? Why or why not?

Check back soon!

Problem 48

Use the following information to answer the next ten exercises. A customer service representative must spend different amounts of time with each customer to resolve various concerns. The amount of time spent with each customer can be modeled by the following distribution: $X \sim Exp(0.2)$
What is $m ?$ What does it represent?

Check back soon!

Problem 49

Use the following information to answer the next ten exercises. A customer service representative must spend different amounts of time with each customer to resolve various concerns. The amount of time spent with each customer can be modeled by the following distribution: $X \sim Exp(0.2)$
What is the mean?

Check back soon!

Problem 50

Use the following information to answer the next ten exercises. A customer service representative must spend different amounts of time with each customer to resolve various concerns. The amount of time spent with each customer can be modeled by the following distribution: $X \sim Exp(0.2)$
What is the standard deviation?

Check back soon!

Problem 51

Use the following information to answer the next ten exercises. A customer service representative must spend different amounts of time with each customer to resolve various concerns. The amount of time spent with each customer can be modeled by the following distribution: $X \sim Exp(0.2)$
State the probability density function.

Check back soon!

Problem 52

Use the following information to answer the next ten exercises. A customer service representative must spend different amounts of time with each customer to resolve various concerns. The amount of time spent with each customer can be modeled by the following distribution: $X \sim Exp(0.2)$
Graph the distribution.

Check back soon!

Problem 53

Use the following information to answer the next ten exercises. A customer service representative must spend different amounts of time with each customer to resolve various concerns. The amount of time spent with each customer can be modeled by the following distribution: $X \sim Exp(0.2)$
Find $P(2 < x < 10).$

Check back soon!

Problem 54

Use the following information to answer the next ten exercises. A customer service representative must spend different amounts of time with each customer to resolve various concerns. The amount of time spent with each customer can be modeled by the following distribution: $X \sim Exp(0.2)$
Find $P(x > 6).$

Check back soon!

Problem 55

Use the following information to answer the next ten exercises. A customer service representative must spend different amounts of time with each customer to resolve various concerns. The amount of time spent with each customer can be modeled by the following distribution: $X \sim Exp(0.2)$
Find the $70^{\text { th }}$ percentile.

Check back soon!

Problem 56

Use the following information to answer the next seven exercises. A distribution is given as $X \sim \operatorname{Exp}(0.75).$
What is $m?$

Check back soon!

Problem 57

Use the following information to answer the next seven exercises. A distribution is given as $X \sim \operatorname{Exp}(0.75).$
What is the probability density function?

Check back soon!

Problem 58

Use the following information to answer the next seven exercises. A distribution is given as $X \sim \operatorname{Exp}(0.75).$
What is the cumulative distribution function?

Check back soon!

Problem 59

Use the following information to answer the next seven exercises. A distribution is given as $X \sim \operatorname{Exp}(0.75).$
Draw the distribution.

Check back soon!

Problem 60

Use the following information to answer the next seven exercises. A distribution is given as $X \sim \operatorname{Exp}(0.75).$
Find $P(x < 4)$

Check back soon!

Problem 61

Use the following information to answer the next seven exercises. A distribution is given as $X \sim \operatorname{Exp}(0.75).$
Find the $30^{\text { th }}$ percentile.

Check back soon!

Problem 62

Use the following information to answer the next seven exercises. A distribution is given as $X \sim \operatorname{Exp}(0.75).$
Find the median.

Check back soon!

Problem 63

Use the following information to answer the next seven exercises. A distribution is given as $X \sim \operatorname{Exp}(0.75).$
Which is larger, the mean or the median?

Check back soon!

Problem 64

Use the following information to answer the next 16 exercises. Carbon-14 is a radioactive element with a half-life of about 5,730 years. Carbon-14 is said to decay exponentially. The decay rate is 0.000121. We start with one gram of carbon-14. We are interested in the time (years) it takes to decay carbon-14.
What is being measured here?

Check back soon!

Problem 65

Use the following information to answer the next 16 exercises. Carbon-14 is a radioactive element with a half-life of about 5,730 years. Carbon-14 is said to decay exponentially. The decay rate is 0.000121. We start with one gram of carbon-14. We are interested in the time (years) it takes to decay carbon-14.
Are the data discrete or continuous?

Check back soon!

Problem 66

Use the following information to answer the next 16 exercises. Carbon-14 is a radioactive element with a half-life of about 5,730 years. Carbon-14 is said to decay exponentially. The decay rate is 0.000121. We start with one gram of carbon-14. We are interested in the time (years) it takes to decay carbon-14.
In words, define the random variable $X .$

Check back soon!

Problem 67

Use the following information to answer the next 16 exercises. Carbon-14 is a radioactive element with a half-life of about 5,730 years. Carbon-14 is said to decay exponentially. The decay rate is 0.000121. We start with one gram of carbon-14. We are interested in the time (years) it takes to decay carbon-14.
What is the decay rate $(m) ?$

Check back soon!

Problem 68

Use the following information to answer the next 16 exercises. Carbon-14 is a radioactive element with a half-life of about 5,730 years. Carbon-14 is said to decay exponentially. The decay rate is 0.000121. We start with one gram of carbon-14. We are interested in the time (years) it takes to decay carbon-14.
The distribution for $X$ is________.

Check back soon!

Problem 69

Use the following information to answer the next 16 exercises. Carbon-14 is a radioactive element with a half-life of about 5,730 years. Carbon-14 is said to decay exponentially. The decay rate is 0.000121. We start with one gram of carbon-14. We are interested in the time (years) it takes to decay carbon-14.
Find the amount (percent of one gram) of carbon-14 lasting less than $5,730$ years. This means, find $P(x < 5,730)$
a. Sketch the graph, and shade the area of interest.
b. Find the probability. $P(x<5,730)=$_________

Check back soon!

Problem 70

Use the following information to answer the next 16 exercises. Carbon-14 is a radioactive element with a half-life of about 5,730 years. Carbon-14 is said to decay exponentially. The decay rate is 0.000121. We start with one gram of carbon-14. We are interested in the time (years) it takes to decay carbon-14.
Find the percentage of carbon-14 lasting longer than 10,000 years.
a. Sketch the graph, and shade the area of interest.
b. Find the probability. P(x> $10,000 )=$__________

Check back soon!

Problem 71

Use the following information to answer the next 16 exercises. Carbon-14 is a radioactive element with a half-life of about 5,730 years. Carbon-14 is said to decay exponentially. The decay rate is 0.000121. We start with one gram of carbon-14. We are interested in the time (years) it takes to decay carbon-14.
Thirty percent (30%) of carbon-14 will decay within how many years?
a. Sketch the graph, and shade the area of interest.
b. Find the value $k$ such that $P(x < k)=0.30$_________

Check back soon!

Problem 72

For each probability and percentile problem, draw the picture.
Consider the following experiment. You are one of 100 people enlisted to take part in a study to determine the percent of nurses in America with an R.N. (registered nurse) degree. You ask nurses if they have an R.N. degree. The nurses answer “yes” or “no.” You then calculate the percentage of nurses with an R.N. degree. You give that percentage to your supervisor.
a. What part of the experiment will yield discrete data?
b. What part of the experiment will yield continuous data?

Check back soon!

Problem 73

For each probability and percentile problem, draw the picture.
When age is rounded to the nearest year, do the data stay continuous, or do they become discrete? Why?

Check back soon!

Problem 74

For each probability and percentile problem, draw the picture.
Births are approximately uniformly distributed between the 52 weeks of the year. They can be said to follow a uniform distribution from one to 53 (spread of 52 weeks).
a. X ~ _________
b. Graph the probability distribution.
c. f(x) = _________
d. ? = _________
e. ? = _________
f. Find the probability that a person is born at the exact moment week 19 starts. That is, find P(x = 19) = _________
g. P(2 < x < 31) = _________
h. Find the probability that a person is born after week 40.
i. P(12 < x|x < 28) = _________
j. Find the 70th percentile.
k. Find the minimum for the upper quarter.

Check back soon!

Problem 75

For each probability and percentile problem, draw the picture.
A random number generator picks a number from one to nine in a uniform manner.
a. X ~ _________
b. Graph the probability distribution.
c. f(x) = _________
d. ? = _________
e. ? = _________
f. P(3.5 < x < 7.25) = _________
g. P(x > 5.67)
h. P(x > 5|x > 3) = _________
i. Find the $90^{\text { th }}$ percentile.

Check back soon!

Problem 76

For each probability and percentile problem, draw the picture.
According to a study by Dr. John McDougall of his live-in weight loss program at St. Helena Hospital, the people who
follow his program lose between six and 15 pounds a month until they approach trim body weight. Let’s suppose that the weight loss is uniformly distributed. We are interested in the weight loss of a randomly selected individual following the program for one month.
a. Define the random variable. X = _________
b. X ~ _________
c. Graph the probability distribution.
d. f(x) = _________
e. ? = _________
f. ? = _________
g. Find the probability that the individual lost more than ten pounds in a month.
h. Suppose it is known that the individual lost more than ten pounds in a month. Find the probability that he lost less than 12 pounds in the month.
i. P(7 < x < 13|x > 9) = __________. State this in a probability question, similarly to parts g and h, draw the picture,
and find the probability.

Check back soon!

Problem 77

For each probability and percentile problem, draw the picture.
A subway train on the Red Line arrives every eight minutes during rush hour. We are interested in the length of time a commuter must wait for a train to arrive. The time follows a uniform distribution.
a. Define the random variable. X = _______
b. X ~ _______
c. Graph the probability distribution.
d. f(x) = _______
e. ? = _______
f. ? = _______
g. Find the probability that the commuter waits less than one minute.
h. Find the probability that the commuter waits between three and four minutes.
i. Sixty percent of commuters wait more than how long for the train? State this in a probability question, similarly to parts g and h, draw the picture, and find the probability.

Check back soon!

Problem 78

For each probability and percentile problem, draw the picture.
The age of a first grader on September 1 at Garden Elementary School is uniformly distributed from 5.8 to 6.8 years.
We randomly select one first grader from the class.
a. Define the random variable. X = _________
b. X ~ _________
c. Graph the probability distribution.
d. f(x) = _________
e. ? = _________
f. ? = _________
g. Find the probability that she is over 6.5 years old.
h. Find the probability that she is between four and six years old.
i. Find the $70^{\text { th }}$ percentile for the age of first graders on September 1 at Garden Elementary School.

Check back soon!

Problem 79

Use the following information to answer the next three exercises. The Sky Train from the terminal to the rental–car and long–term parking center is supposed to arrive every eight minutes. The waiting times for the train are known to follow a uniform distribution.
What is the average waiting time (in minutes)?
a. zero
b. two
c. three
d. four

Tony W.
Numerade Educator

Problem 80

Use the following information to answer the next three exercises. The Sky Train from the terminal to the rental–car and long–term parking center is supposed to arrive every eight minutes. The waiting times for the train are known to follow a uniform distribution.
Find the $30^{\text { th }}$ percentile for the waiting times (in minutes).
a. two
b. 2.4
c. 2.75
d. three

Tony W.
Numerade Educator

Problem 81

Use the following information to answer the next three exercises. The Sky Train from the terminal to the rental–car and long–term parking center is supposed to arrive every eight minutes. The waiting times for the train are known to follow a uniform distribution.
The probability of waiting more than seven minutes given a person has waited more than four minutes is?
a. 0.125
b. 0.25
c. 0.5
d. 0.75

Tony W.
Numerade Educator

Problem 82

The time (in minutes) until the next bus departs a major bus depot follows a distribution with f(x) = 1 20 where x goes from 25 to 45 minutes.
a. Define the random variable. X = ________
b. X ~ ________
c. Graph the probability distribution.
d. The distribution is ______________ (name of distribution). It is _____________ (discrete or continuous).
e. ? = ________
f. ? = ________
g. Find the probability that the time is at most 30 minutes. Sketch and label a graph of the distribution. Shade the area of interest. Write the answer in a probability statement.
h. Find the probability that the time is between 30 and 40 minutes. Sketch and label a graph of the distribution. Shade the area of interest. Write the answer in a probability statement.
i. P(25 < x < 55) = _________. State this in a probability statement, similarly to parts g and h, draw the picture, and find the probability.
j. Find the 90th percentile. This means that 90% of the time, the time is less than _____ minutes.
k. Find the 75th percentile. In a complete sentence, state what this means. (See part j.)
l. Find the probability that the time is more than 40 minutes given (or knowing that) it is at least 30 minutes.

Check back soon!

Problem 83

Suppose that the value of a stock varies each day from $16 to $25 with a uniform distribution.
a. Find the probability that the value of the stock is more than $19.
b. Find the probability that the value of the stock is between $19 and $22.
c. Find the upper quartile - 25% of all days the stock is above what value? Draw the graph.
d. Given that the stock is greater than $18, find the probability that the stock is more than $21.

Check back soon!

Problem 84

A fireworks show is designed so that the time between fireworks is between one and five seconds, and follows a uniform distribution.
a. Find the average time between fireworks.
b. Find probability that the time between fireworks is greater than four seconds.

Check back soon!

Problem 85

The number of miles driven by a truck driver falls between 300 and 700, and follows a uniform distribution.
a. Find the probability that the truck driver goes more than 650 miles in a day.
b. Find the probability that the truck drivers goes between 400 and 650 miles in a day.
c. At least how many miles does the truck driver travel on the furthest 10% of days?

Check back soon!

Problem 86

Suppose that the length of long distance phone calls, measured in minutes, is known to have an exponential distribution with the average length of a call equal to eight minutes.
a. Define the random variable. X = ________________.
b. Is X continuous or discrete?
c. X ~ ________
d. ? = ________
e. ? = ________
f. Draw a graph of the probability distribution. Label the axes.
g. Find the probability that a phone call lasts less than nine minutes.
h. Find the probability that a phone call lasts more than nine minutes.
i. Find the probability that a phone call lasts between seven and nine minutes.
j. If 25 phone calls are made one after another, on average, what would you expect the total to be ?Why?

Check back soon!

Problem 87

Suppose that the useful life of a particular car battery, measured in months, decays with parameter 0.025. We are interested in the life of the battery.
a. Define the random variable. X = _________________________________.
b. Is X continuous or discrete?
c. X ~ ________
d. On average, how long would you expect one car battery to last?
e. On average, how long would you expect nine car batteries to last, if they are used one after another?
f. Find the probability that a car battery lasts more than 36 months.
g. Seventy percent of the batteries last at least how long?

Check back soon!

Problem 88

The percent of persons (ages five and older) in each state who speak a language at home other than English is approximately exponentially distributed with a mean of 9.848. Suppose we randomly pick a state.
a. Define the random variable. X = _________________________________.
b. Is X continuous or discrete?
c. X ~ ________
d. ? = ________
e. ? = ________
f. Draw a graph of the probability distribution. Label the axes.
g. Find the probability that the percent is less than 12.
h. Find the probability that the percent is between eight and 14.
i. The percent of all individuals living in the United States who speak a language at home other than English is 13.8.
i. Why is this number different from 9.848%?
ii. What would make this number higher than 9.848%?

Check back soon!

Problem 89

The time (in years) after reaching age 60 that it takes an individual to retire is approximately exponentially distributed with a mean of about five years. Suppose we randomly pick one retired individual. We are interested in the time after age 60 to retirement.
a. Define the random variable. X = _________________________________.
b. Is X continuous or discrete?
c. X ~ = ________
d. ? = ________
e. ? = ________
f. Draw a graph of the probability distribution. Label the axes.
g. Find the probability that the person retired after age 70.
h. Do more people retire before age 65 or after age 65?
i. In a room of 1,000 people over age 80, how many do you expect will NOT have retired yet?

Check back soon!

Problem 90

The cost of all maintenance for a car during its first year is approximately exponentially distributed with a mean of $150.
a. Define the random variable. X = _________________________________.
b. X ~ = ________
c. ? = ________
d. ? = ________
e. Draw a graph of the probability distribution. Label the axes.
f. Find the probability that a car required over $300 for maintenance during its first year

Check back soon!

Problem 91

Use the following information to answer the next three exercises. The average lifetime of a certain new cell phone is three years. The manufacturer will replace any cell phone failing within two years of the date of purchase. The lifetime of these cell phones is known to follow an exponential distribution.

The decay rate is:
a. 0.3333
b. 0.5000
c. 2
d. 3

Check back soon!

Problem 92

Use the following information to answer the next three exercises. The average lifetime of a certain new cell phone is three years. The manufacturer will replace any cell phone failing within two years of the date of purchase. The lifetime of these cell phones is known to follow an exponential distribution.

What is the probability that a phone will fail within two years of the date of purchase?
a. 0.8647
b. 0.4866
c. 0.2212
d. 0.9997

Check back soon!

Problem 93

Use the following information to answer the next three exercises. The average lifetime of a certain new cell phone is three years. The manufacturer will replace any cell phone failing within two years of the date of purchase. The lifetime of these cell phones is known to follow an exponential distribution.

What is the median lifetime of these phones (in years)?
a. 0.1941
b. 1.3863
c. 2.0794
d. 5.5452

Check back soon!

Problem 94

Let X ~ Exp(0.1).
a. decay rate = ________
b. ? = ________
c. Graph the probability distribution function.
d. On the graph, shade the area corresponding to P(x < 6) and find the probability.
e. Sketch a new graph, shade the area corresponding to P(3 < x < 6) and find the probability.
f. Sketch a new graph, shade the area corresponding to P(x < 7) and find the probability.
g. Sketch a new graph, shade the area corresponding to the 40th percentile and find the value.
h. Find the average value of x.

Check back soon!

Problem 95

Suppose that the longevity of a light bulb is exponential with a mean lifetime of eight years.
a. Find the probability that a light bulb lasts less than one year.
b. Find the probability that a light bulb lasts between six and ten years.
c. Seventy percent of all light bulbs last at least how long?
d. A company decides to offer a warranty to give refunds to light bulbs whose lifetime is among the lowest two percent of all bulbs. To the nearest month, what should be the cutoff lifetime for the warranty to take place?
e. If a light bulb has lasted seven years, what is the probability that it fails within the 8th year.

Check back soon!

Problem 96

At a 911 call center, calls come in at an average rate of one call every two minutes. Assume that the time that elapses from one call to the next has the exponential distribution.
a. On average, how much time occurs between five consecutive calls?
b. Find the probability that after a call is received, it takes more than three minutes for the next call to occur.
c. Ninety-percent of all calls occur within how many minutes of the previous call?
d. Suppose that two minutes have elapsed since the last call. Find the probability that the next call will occur within the next minute.
e. Find the probability that less than 20 calls occur within an hour.

Check back soon!

Problem 97

In major league baseball, a no-hitter is a game in which a pitcher, or pitchers, doesn't give up any hits throughout the game. No-hitters occur at a rate of about three per season. Assume that the duration of time between no-hitters is exponential.
a. What is the probability that an entire season elapses with a single no-hitter?
b. If an entire season elapses without any no-hitters, what is the probability that there are no no-hitters in the following season?
c. What is the probability that there are more than 3 no-hitters in a single season?

Check back soon!

Problem 98

During the years 1998–2012, a total of 29 earthquakes of magnitude greater than 6.5 have occurred in Papua New Guinea. Assume that the time spent waiting between earthquakes is exponential.
a. What is the probability that the next earthquake occurs within the next three months?
b. Given that six months has passed without an earthquake in Papua New Guinea, what is the probability that the next three months will be free of earthquakes?
c. What is the probability of zero earthquakes occurring in 2014?
d. What is the probability that at least two earthquakes will occur in 2014?

Check back soon!

Problem 99

A web site experiences traffic during normal working hours at a rate of 12 visits per hour. Assume that the duration between visits has the exponential distribution.
a. Find the probability that the duration between two successive visits to the web site is more than ten minutes.
b. The top 25% of durations between visits are at least how long?
c. Suppose that 20 minutes have passed since the last visit to the web site. What is the probability that the next visit will occur within the next 5 minutes?
d. Find the probability that less than 7 visits occur within a one-hour period

Check back soon!

Problem 100

A web site experiences traffic during normal working hours at a rate of 12 visits per hour. Assume that the duration between visits has the exponential distribution.
a. Find the probability that the duration between two successive visits to the web site is more than ten minutes.
b. The top 25% of durations between visits are at least how long?
c. Suppose that 20 minutes have passed since the last visit to the web site. What is the probability that the next visit will occur within the next 5 minutes?
d. Find the probability that less than 7 visits occur within a one-hour period.

Check back soon!

Problem 101

At an urgent care facility, patients arrive at an average rate of one patient every seven minutes. Assume that the duration between arrivals is exponentially distributed.
a. Find the probability that the time between two successive visits to the urgent care facility is less than 2 minutes.
b. Find the probability that the time between two successive visits to the urgent care facility is more than 15 minutes.
c. If 10 minutes have passed since the last arrival, what is the probability that the next person will arrive within the next five minutes?
d. Find the probability that more than eight patients arrive during a half-hour period.

Check back soon!