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Deck 6: Continuous Probability Distributions

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Question
For a continuous random variable x, the probability density function f(x) represents

A)the probability at a given value of x
B)the area under the curve at x
C)Both the probability at a given value of x and the area under the curve at x are correct answers.
D)the height of the function at x
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Question
For any continuous random variable, the probability that the random variable takes on exactly a specific value is

A)1.00
B)0.50
C)any value between 0 to 1
D)zero
Question
The assembly time for a product is uniformly distributed between 6 to 10 minutes. The probability of assembling the product in 7 minutes or more is

A)0.25
B)0.75
C)zero
D)1
Question
If arrivals follow a Poisson probability distribution, the time between successive arrivals must follow

A)a Poisson probability distribution
B)a normal probability distribution
C)a uniform probability distribution
D)an exponential probability distribution
Question
The probability density function for a uniform distribution ranging between 2 and 6 is

A)4
B)undefined
C)any positive value
D)0.25
Question
Whenever the probability is proportional to the length of the interval in which the random variable can assume a value, the random variable is

A)uniformly distributed
B)normally distributed
C)exponentially distributed
D)Poisson distributed
Question
The mean, median, and mode have the same value for which of the following probability distributions?

A)uniform
B)normal
C)exponential
D)Poisson
Question
The assembly time for a product is uniformly distributed between 6 to 10 minutes. The probability of assembling the product between 7 to 9 minutes is

A)zero
B)0.50
C)0.20
D)1
Question
The assembly time for a product is uniformly distributed between 6 to 10 minutes. The expected assembly time (in minutes) is

A)16
B)2
C)8
D)4
Question
The assembly time for a product is uniformly distributed between 6 to 10 minutes. The probability of assembling the product in less than 6 minutes is

A)zero
B)0.50
C)0.15
D)1
Question
The function that defines the probability distribution of any continuous random variable is a

A)normal function
B)uniform function
C)Both the normal function and the uniform function are correct.
D)probability density function
Question
For a uniform probability density function, the height of the function

A)can not be larger than one
B)is the same for each value of x
C)is different for various values of x
D)decreases as x increases
Question
The form of the continuous uniform probability distribution is

A)triangular
B)rectangular
C)bell-shaped
D)a series of vertical lines
Question
The assembly time for a product is uniformly distributed between 6 to 10 minutes. The probability density function has what value in the interval between 6 and 10?

A)0.25
B)4.00
C)5.00
D)zero
Question
A continuous random variable may assume

A)all values in an interval or collection of intervals
B)only integer values in an interval or collection of intervals
C)only fractional values in an interval or collection of intervals
D)all the positive integer values in an interval
Question
The random variable x is known to be uniformly distributed between 70 and 90. The probability of x having a value between 80 to 95 is

A)0.75
B)0.5
C)0.05
D)1
Question
There is a lower limit but no upper limit for a random variable that follows the

A)uniform probability distribution
B)normal probability distribution
C)exponential probability distribution
D)binomial probability distribution
Question
The uniform probability distribution is used with

A)a continuous random variable
B)a discrete random variable
C)a normally distributed random variable
D)any random variable
Question
The probability distribution that can be described by just one parameter is the

A)uniform
B)normal
C)exponential
D)binomial
Question
A uniform probability distribution is a continuous probability distribution where the probability that the random variable assumes a value in any interval of equal length is

A)different for each interval
B)the same for each interval
C)Either a or b could be correct depending on the magnitude of the standard deviation.
D)None of the alternative answers is correct.
Question
Z is a standard normal random variable. The P(-1.5 \le z \le 1.09) equals

A)0.4322
B)0.3621
C)0.7953
D)0.0711
Question
Z is a standard normal random variable. The P (-1.20 \le z \le 1.50) equals

A)0.0483
B)0.3849
C)0.4332
D)0.8181
Question
The highest point of a normal curve occurs at

A)one standard deviation to the right of the mean
B)two standard deviations to the right of the mean
C)approximately three standard deviations to the right of the mean
D)the mean
Question
The assembly time for a product is uniformly distributed between 6 to 10 minutes. The standard deviation of assembly time (in minutes) is approximately

A)0.3333
B)0.1334
C)16
D)None of the alternative answers is correct.
Question
If the mean of a normal distribution is negative,

A)the standard deviation must also be negative
B)the variance must also be negative
C)a mistake has been made in the computations, because the mean of a normal distribution can not be negative
D)None of the alternative answers is correct.
Question
A normal probability distribution

A)is a continuous probability distribution
B)is a discrete probability distribution
C)can be either continuous or discrete
D)always has a standard deviation of 1
Question
The standard deviation of a standard normal distribution

A)is always equal to zero
B)is always equal to one
C)can be any positive value
D)can be any value
Question
Z is a standard normal random variable. The P(1.05 \le z \le 2.13) equals

A)0.8365
B)0.1303
C)0.4834
D)None of the alternative answers is correct.
Question
Which of the following is not a characteristic of the normal probability distribution?

A)The mean, median, and the mode are equal
B)The mean of the distribution can be negative, zero, or positive
C)The distribution is symmetrical
D)The standard deviation must be 1
Question
For the standard normal probability distribution, the area to the left of the mean is

A)-0.5
B)0.5
C)any value between 0 to 1
D)1
Question
Which of the following is not a characteristic of the normal probability distribution?

A)The graph of the curve is the shape of a rectangle
B)The total area under the curve is always equal to 1.
C)99.72% of the time the random variable assumes a value within plus or minus three standard deviations of its mean
D)The mean is equal to the median, which is also equal to the mode.
Question
Z is a standard normal random variable. The P(-1.96 \le z \le -1.4) equals

A)0.8942
B)0.0558
C)0.475
D)0.4192
Question
In a standard normal distribution, the range of values of z is from

A)minus infinity to infinity
B)-1 to 1
C)0 to 1
D)-3.09 to 3.09
Question
A standard normal distribution is a normal distribution with

A)a mean of 1 and a standard deviation of 0
B)a mean of 0 and a standard deviation of 1
C)any mean and a standard deviation of 1
D)any mean and any standard deviation
Question
Larger values of the standard deviation result in a normal curve that is

A)shifted to the right
B)shifted to the left
C)narrower and more peaked
D)wider and flatter
Question
The mean of a standard normal probability distribution

A)is always equal to 1
B)can be any value as long as it is positive
C)can be any value
D)None of the alternative answers is correct.
Question
For a standard normal distribution, the probability of z \le 0 is

A)zero
B)-0.5
C)0.5
D)one
Question
For a standard normal distribution, a negative value of z indicates

A)a mistake has been made in computations, because z is always positive
B)the area corresponding to the z is negative
C)the z is to the left of the mean
D)the z is to the right of the mean
Question
Z is a standard normal random variable. The P(1.20 \le z \le 1.85) equals

A)0.4678
B)0.3849
C)0.8527
D)0.0829
Question
Z is a standard normal random variable. The P(1.41 <\lt z <\lt 2.85) equals

A)0.4772
B)0.3413
C)0.8285
D)None of the alternative answers is correct.
Question
Given that z is a standard normal random variable, what is the value of z if the area to the right of z is 0.1112?

A)0.3888
B)1.22
C)2.22
D)3.22
Question
Given that z is a standard normal random variable, what is the value of z if the area to the right of z is 0.1401?

A)1.08
B)0.1401
C)2.16
D)-1.08
Question
Excel's NORM.INV function can be used to compute

A)cumulative probabilities for a standard normal z value
B)the standard normal z value given a cumulative probability
C)cumulative probabilities for a normally distributed x value
D)the normally distributed x value given a cumulative probability
Question
X is a normally distributed random variable with a mean of 8 and a standard deviation of 4. The probability that x is between 1.48 and 15.56 is

A)0.0222
B)0.4190
C)0.5222
D)0.9190
Question
X is a normally distributed random variable with a mean of 22 and a standard deviation of 5. The probability that x is less than 9.7 is

A)0.000
B)0.4931
C)0.0069
D)0.9931
Question
Z is a standard normal random variable. The P(z \ge 2.11) equals

A)0.4821
B)0.9821
C)0.5
D)0.0174
Question
Z is a standard normal random variable. What is the value of z if the area to the right of z is 0.9803?

A)-2.06
B)0.4803
C)0.0997
D)3.06
Question
Z is a standard normal random variable. What is the value of z if the area between -z and z is 0.754?

A)0.377
B)0.123
C)2.16
D)1.16
Question
Excel's NORM.S.DIST function can be used to compute

A)cumulative probabilities for a standard normal z value
B)the standard normal z value given a cumulative probability
C)cumulative probabilities for a normally distributed x value
D)the normally distributed x value given a cumulative probability
Question
Excel's NORM.S.INV function can be used to compute

A)cumulative probabilities for a standard normal z value
B)the standard normal z value given a cumulative probability
C)cumulative probabilities for a normally distributed x value
D)the normally distributed x value given a cumulative probability
Question
A continuous probability distribution that is useful in describing the time, or space, between occurrences of an event is a(n)

A)normal probability distribution
B)uniform probability distribution
C)exponential probability distribution
D)Poisson probability distribution
Question
Excel's NORM.DIST function can be used to compute

A)cumulative probabilities for a standard normal z value
B)the standard normal z value given a cumulative probability
C)cumulative probabilities for a normally distributed x value
D)the normally distributed x value given a cumulative probability
Question
X is a normally distributed random variable with a mean of 12 and a standard deviation of 3. The probability that x equals 19.62 is

A)0.000
B)0.0055
C)0.4945
D)0.9945
Question
The exponential probability distribution is used with

A)a discrete random variable
B)a continuous random variable
C)any probability distribution with an exponential term
D)an approximation of the binomial probability distribution
Question
The ages of students at a university are normally distributed with a mean of 21. What percentage of the student body is at least 21 years old?

A)It could be any value, depending on the magnitude of the standard deviation
B)50%
C)21%
D)1.96%
Question
Given that z is a standard normal random variable, what is the value of z if the area to the left of z is 0.9382?

A)1.8
B)1.54
C)2.1
D)1.77
Question
For a standard normal distribution, the probability of obtaining a z value of less than 1.6 is

A)0.1600
B)0.0160
C)0.0016
D)0.9452
Question
For a standard normal distribution, the probability of obtaining a z value between -1.9 to 1.7 is

A)0.9267
B)0.4267
C)1.4267
D)0.5000
Question
X is a normally distributed random variable with a mean of 5 and a variance of 4. The probability that x is greater than 10.52 is

A)0.0029
B)0.0838
C)0.4971
D)0.9971
Question
For a standard normal distribution, the probability of obtaining a z value between -2.4 to -2.0 is

A)0.4000
B)0.0146
C)0.0400
D)0.5000
Question
Exhibit 6-1
Consider the continuous random variable x, which has a uniform distribution over the interval from 20 to 28.
Refer to Exhibit 6-1. The probability density function has what value in the interval between 20 and 28?

A)0
B)0.050
C)0.125
D)1.000
Question
Exhibit 6-1
Consider the continuous random variable x, which has a uniform distribution over the interval from 20 to 28.
Refer to Exhibit 6-1. The mean of x is

A)0.000
B)0.125
C)23
D)24
Question
Exhibit 6-2
The travel time for a college student traveling between her home and her college is uniformly distributed between 40 and 90 minutes.
Refer to Exhibit 6-2. The probability that her trip will take exactly 50 minutes is

A)zero
B)0.02
C)0.06
D)0.20
Question
Exhibit 6-1
Consider the continuous random variable x, which has a uniform distribution over the interval from 20 to 28.
Refer to Exhibit 6-1. The probability that x will take on a value between 21 and 25 is

A)0.125
B)0.250
C)0.500
D)1.000
Question
Exhibit 6-2
The travel time for a college student traveling between her home and her college is uniformly distributed between 40 and 90 minutes.
Refer to Exhibit 6-2. The probability that her trip will take longer than 60 minutes is

A)1.00
B)0.40
C)0.02
D)0.600
Question
Exhibit 6-3
The weight of football players is normally distributed with a mean of 200 pounds and a standard deviation of 25 pounds.
Refer to Exhibit 6-3. What percent of players weigh between 180 and 220 pounds?

A)34.13%
B)68.26%
C)0.3413%
D)None of the alternative answers is correct.
Question
Exhibit 6-1
Consider the continuous random variable x, which has a uniform distribution over the interval from 20 to 28.
Refer to Exhibit 6-1. The probability that x will take on a value of at least 26 is

A)0.000
B)0.125
C)0.250
D)1.000
Question
Excel's EXPON.DIST function can be used to compute

A)exponents
B)exponential probabilities
C)cumulative exponential probabilities
D)Both exponential probabilities and cumulative exponential probabilities are correct.
Question
An exponential probability distribution

A)is a continuous distribution
B)is a discrete distribution
C)can be either continuous or discrete
D)must be normally distributed
Question
Exhibit 6-4
The starting salaries of individuals with an MBA degree are normally distributed with a mean of $40,000 and a standard deviation of $5,000.
Refer to Exhibit 6-4. What is the probability that a randomly selected individual with an MBA degree will get a starting salary of at least $30,000?

A)0.4772
B)0.9772
C)0.0228
D)0.5000
Question
Exhibit 6-3
The weight of football players is normally distributed with a mean of 200 pounds and a standard deviation of 25 pounds.
Refer to Exhibit 6-3. What is the minimum weight of the middle 95% of the players?

A)196
B)151
C)249
D)None of the alternative answers is correct.
Question
Exhibit 6-2
The travel time for a college student traveling between her home and her college is uniformly distributed between 40 and 90 minutes.
Refer to Exhibit 6-2. The probability that she will finish her trip in 80 minutes or less is

A)0.02
B)0.8
C)0.2
D)1.00
Question
Exhibit 6-1
Consider the continuous random variable x, which has a uniform distribution over the interval from 20 to 28.
Refer to Exhibit 6-1. The variance of x is approximately

A)2.309
B)5.333
C)32
D)0.667
Question
Excel's EXPON.DIST function has how many inputs?

A)2
B)3
C)4
D)5
Question
Exhibit 6-3
The weight of football players is normally distributed with a mean of 200 pounds and a standard deviation of 25 pounds.
Refer to Exhibit 6-3. The probability of a player weighing less than 250 pounds is

A)0.4772
B)0.9772
C)0.0528
D)0.5000
Question
Exhibit 6-3
The weight of football players is normally distributed with a mean of 200 pounds and a standard deviation of 25 pounds.
Refer to Exhibit 6-3. The probability of a player weighing more than 241.25 pounds is

A)0.4505
B)0.0495
C)0.9505
D)0.9010
Question
Exhibit 6-2
The travel time for a college student traveling between her home and her college is uniformly distributed between 40 and 90 minutes.
Refer to Exhibit 6-2. What is the random variable in this experiment?

A)the uniform distribution
B)40 minutes
C)90 minutes
D)the travel time
Question
Exhibit 6-4
The starting salaries of individuals with an MBA degree are normally distributed with a mean of $40,000 and a standard deviation of $5,000.
Refer to Exhibit 6-4. What is the random variable in this experiment?

A)the starting salaries
B)the normal distribution
C)$40,000
D)$5,000
Question
When using Excel's EXPON.DIST function, one should choose TRUE for the third input if

A)a probability is desired
B)a cumulative probability is desired
C)the expected value is desired
D)the correct answer is desired
Question
Exhibit 6-3
The weight of football players is normally distributed with a mean of 200 pounds and a standard deviation of 25 pounds.
Refer to Exhibit 6-3. What is the random variable in this experiment?

A)the weight of football players
B)200 pounds
C)25 pounds
D)the normal distribution
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Deck 6: Continuous Probability Distributions
1
For a continuous random variable x, the probability density function f(x) represents

A)the probability at a given value of x
B)the area under the curve at x
C)Both the probability at a given value of x and the area under the curve at x are correct answers.
D)the height of the function at x
the height of the function at x
2
For any continuous random variable, the probability that the random variable takes on exactly a specific value is

A)1.00
B)0.50
C)any value between 0 to 1
D)zero
zero
3
The assembly time for a product is uniformly distributed between 6 to 10 minutes. The probability of assembling the product in 7 minutes or more is

A)0.25
B)0.75
C)zero
D)1
0.75
4
If arrivals follow a Poisson probability distribution, the time between successive arrivals must follow

A)a Poisson probability distribution
B)a normal probability distribution
C)a uniform probability distribution
D)an exponential probability distribution
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5
The probability density function for a uniform distribution ranging between 2 and 6 is

A)4
B)undefined
C)any positive value
D)0.25
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6
Whenever the probability is proportional to the length of the interval in which the random variable can assume a value, the random variable is

A)uniformly distributed
B)normally distributed
C)exponentially distributed
D)Poisson distributed
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7
The mean, median, and mode have the same value for which of the following probability distributions?

A)uniform
B)normal
C)exponential
D)Poisson
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8
The assembly time for a product is uniformly distributed between 6 to 10 minutes. The probability of assembling the product between 7 to 9 minutes is

A)zero
B)0.50
C)0.20
D)1
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9
The assembly time for a product is uniformly distributed between 6 to 10 minutes. The expected assembly time (in minutes) is

A)16
B)2
C)8
D)4
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10
The assembly time for a product is uniformly distributed between 6 to 10 minutes. The probability of assembling the product in less than 6 minutes is

A)zero
B)0.50
C)0.15
D)1
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11
The function that defines the probability distribution of any continuous random variable is a

A)normal function
B)uniform function
C)Both the normal function and the uniform function are correct.
D)probability density function
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12
For a uniform probability density function, the height of the function

A)can not be larger than one
B)is the same for each value of x
C)is different for various values of x
D)decreases as x increases
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13
The form of the continuous uniform probability distribution is

A)triangular
B)rectangular
C)bell-shaped
D)a series of vertical lines
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14
The assembly time for a product is uniformly distributed between 6 to 10 minutes. The probability density function has what value in the interval between 6 and 10?

A)0.25
B)4.00
C)5.00
D)zero
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15
A continuous random variable may assume

A)all values in an interval or collection of intervals
B)only integer values in an interval or collection of intervals
C)only fractional values in an interval or collection of intervals
D)all the positive integer values in an interval
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16
The random variable x is known to be uniformly distributed between 70 and 90. The probability of x having a value between 80 to 95 is

A)0.75
B)0.5
C)0.05
D)1
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17
There is a lower limit but no upper limit for a random variable that follows the

A)uniform probability distribution
B)normal probability distribution
C)exponential probability distribution
D)binomial probability distribution
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18
The uniform probability distribution is used with

A)a continuous random variable
B)a discrete random variable
C)a normally distributed random variable
D)any random variable
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19
The probability distribution that can be described by just one parameter is the

A)uniform
B)normal
C)exponential
D)binomial
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20
A uniform probability distribution is a continuous probability distribution where the probability that the random variable assumes a value in any interval of equal length is

A)different for each interval
B)the same for each interval
C)Either a or b could be correct depending on the magnitude of the standard deviation.
D)None of the alternative answers is correct.
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21
Z is a standard normal random variable. The P(-1.5 \le z \le 1.09) equals

A)0.4322
B)0.3621
C)0.7953
D)0.0711
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22
Z is a standard normal random variable. The P (-1.20 \le z \le 1.50) equals

A)0.0483
B)0.3849
C)0.4332
D)0.8181
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23
The highest point of a normal curve occurs at

A)one standard deviation to the right of the mean
B)two standard deviations to the right of the mean
C)approximately three standard deviations to the right of the mean
D)the mean
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24
The assembly time for a product is uniformly distributed between 6 to 10 minutes. The standard deviation of assembly time (in minutes) is approximately

A)0.3333
B)0.1334
C)16
D)None of the alternative answers is correct.
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25
If the mean of a normal distribution is negative,

A)the standard deviation must also be negative
B)the variance must also be negative
C)a mistake has been made in the computations, because the mean of a normal distribution can not be negative
D)None of the alternative answers is correct.
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26
A normal probability distribution

A)is a continuous probability distribution
B)is a discrete probability distribution
C)can be either continuous or discrete
D)always has a standard deviation of 1
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27
The standard deviation of a standard normal distribution

A)is always equal to zero
B)is always equal to one
C)can be any positive value
D)can be any value
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28
Z is a standard normal random variable. The P(1.05 \le z \le 2.13) equals

A)0.8365
B)0.1303
C)0.4834
D)None of the alternative answers is correct.
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29
Which of the following is not a characteristic of the normal probability distribution?

A)The mean, median, and the mode are equal
B)The mean of the distribution can be negative, zero, or positive
C)The distribution is symmetrical
D)The standard deviation must be 1
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30
For the standard normal probability distribution, the area to the left of the mean is

A)-0.5
B)0.5
C)any value between 0 to 1
D)1
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31
Which of the following is not a characteristic of the normal probability distribution?

A)The graph of the curve is the shape of a rectangle
B)The total area under the curve is always equal to 1.
C)99.72% of the time the random variable assumes a value within plus or minus three standard deviations of its mean
D)The mean is equal to the median, which is also equal to the mode.
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32
Z is a standard normal random variable. The P(-1.96 \le z \le -1.4) equals

A)0.8942
B)0.0558
C)0.475
D)0.4192
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33
In a standard normal distribution, the range of values of z is from

A)minus infinity to infinity
B)-1 to 1
C)0 to 1
D)-3.09 to 3.09
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34
A standard normal distribution is a normal distribution with

A)a mean of 1 and a standard deviation of 0
B)a mean of 0 and a standard deviation of 1
C)any mean and a standard deviation of 1
D)any mean and any standard deviation
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35
Larger values of the standard deviation result in a normal curve that is

A)shifted to the right
B)shifted to the left
C)narrower and more peaked
D)wider and flatter
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36
The mean of a standard normal probability distribution

A)is always equal to 1
B)can be any value as long as it is positive
C)can be any value
D)None of the alternative answers is correct.
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37
For a standard normal distribution, the probability of z \le 0 is

A)zero
B)-0.5
C)0.5
D)one
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38
For a standard normal distribution, a negative value of z indicates

A)a mistake has been made in computations, because z is always positive
B)the area corresponding to the z is negative
C)the z is to the left of the mean
D)the z is to the right of the mean
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39
Z is a standard normal random variable. The P(1.20 \le z \le 1.85) equals

A)0.4678
B)0.3849
C)0.8527
D)0.0829
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40
Z is a standard normal random variable. The P(1.41 <\lt z <\lt 2.85) equals

A)0.4772
B)0.3413
C)0.8285
D)None of the alternative answers is correct.
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41
Given that z is a standard normal random variable, what is the value of z if the area to the right of z is 0.1112?

A)0.3888
B)1.22
C)2.22
D)3.22
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42
Given that z is a standard normal random variable, what is the value of z if the area to the right of z is 0.1401?

A)1.08
B)0.1401
C)2.16
D)-1.08
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43
Excel's NORM.INV function can be used to compute

A)cumulative probabilities for a standard normal z value
B)the standard normal z value given a cumulative probability
C)cumulative probabilities for a normally distributed x value
D)the normally distributed x value given a cumulative probability
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44
X is a normally distributed random variable with a mean of 8 and a standard deviation of 4. The probability that x is between 1.48 and 15.56 is

A)0.0222
B)0.4190
C)0.5222
D)0.9190
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45
X is a normally distributed random variable with a mean of 22 and a standard deviation of 5. The probability that x is less than 9.7 is

A)0.000
B)0.4931
C)0.0069
D)0.9931
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46
Z is a standard normal random variable. The P(z \ge 2.11) equals

A)0.4821
B)0.9821
C)0.5
D)0.0174
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47
Z is a standard normal random variable. What is the value of z if the area to the right of z is 0.9803?

A)-2.06
B)0.4803
C)0.0997
D)3.06
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48
Z is a standard normal random variable. What is the value of z if the area between -z and z is 0.754?

A)0.377
B)0.123
C)2.16
D)1.16
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49
Excel's NORM.S.DIST function can be used to compute

A)cumulative probabilities for a standard normal z value
B)the standard normal z value given a cumulative probability
C)cumulative probabilities for a normally distributed x value
D)the normally distributed x value given a cumulative probability
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50
Excel's NORM.S.INV function can be used to compute

A)cumulative probabilities for a standard normal z value
B)the standard normal z value given a cumulative probability
C)cumulative probabilities for a normally distributed x value
D)the normally distributed x value given a cumulative probability
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51
A continuous probability distribution that is useful in describing the time, or space, between occurrences of an event is a(n)

A)normal probability distribution
B)uniform probability distribution
C)exponential probability distribution
D)Poisson probability distribution
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52
Excel's NORM.DIST function can be used to compute

A)cumulative probabilities for a standard normal z value
B)the standard normal z value given a cumulative probability
C)cumulative probabilities for a normally distributed x value
D)the normally distributed x value given a cumulative probability
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53
X is a normally distributed random variable with a mean of 12 and a standard deviation of 3. The probability that x equals 19.62 is

A)0.000
B)0.0055
C)0.4945
D)0.9945
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54
The exponential probability distribution is used with

A)a discrete random variable
B)a continuous random variable
C)any probability distribution with an exponential term
D)an approximation of the binomial probability distribution
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55
The ages of students at a university are normally distributed with a mean of 21. What percentage of the student body is at least 21 years old?

A)It could be any value, depending on the magnitude of the standard deviation
B)50%
C)21%
D)1.96%
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56
Given that z is a standard normal random variable, what is the value of z if the area to the left of z is 0.9382?

A)1.8
B)1.54
C)2.1
D)1.77
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57
For a standard normal distribution, the probability of obtaining a z value of less than 1.6 is

A)0.1600
B)0.0160
C)0.0016
D)0.9452
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58
For a standard normal distribution, the probability of obtaining a z value between -1.9 to 1.7 is

A)0.9267
B)0.4267
C)1.4267
D)0.5000
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59
X is a normally distributed random variable with a mean of 5 and a variance of 4. The probability that x is greater than 10.52 is

A)0.0029
B)0.0838
C)0.4971
D)0.9971
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60
For a standard normal distribution, the probability of obtaining a z value between -2.4 to -2.0 is

A)0.4000
B)0.0146
C)0.0400
D)0.5000
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61
Exhibit 6-1
Consider the continuous random variable x, which has a uniform distribution over the interval from 20 to 28.
Refer to Exhibit 6-1. The probability density function has what value in the interval between 20 and 28?

A)0
B)0.050
C)0.125
D)1.000
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62
Exhibit 6-1
Consider the continuous random variable x, which has a uniform distribution over the interval from 20 to 28.
Refer to Exhibit 6-1. The mean of x is

A)0.000
B)0.125
C)23
D)24
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63
Exhibit 6-2
The travel time for a college student traveling between her home and her college is uniformly distributed between 40 and 90 minutes.
Refer to Exhibit 6-2. The probability that her trip will take exactly 50 minutes is

A)zero
B)0.02
C)0.06
D)0.20
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64
Exhibit 6-1
Consider the continuous random variable x, which has a uniform distribution over the interval from 20 to 28.
Refer to Exhibit 6-1. The probability that x will take on a value between 21 and 25 is

A)0.125
B)0.250
C)0.500
D)1.000
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65
Exhibit 6-2
The travel time for a college student traveling between her home and her college is uniformly distributed between 40 and 90 minutes.
Refer to Exhibit 6-2. The probability that her trip will take longer than 60 minutes is

A)1.00
B)0.40
C)0.02
D)0.600
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66
Exhibit 6-3
The weight of football players is normally distributed with a mean of 200 pounds and a standard deviation of 25 pounds.
Refer to Exhibit 6-3. What percent of players weigh between 180 and 220 pounds?

A)34.13%
B)68.26%
C)0.3413%
D)None of the alternative answers is correct.
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67
Exhibit 6-1
Consider the continuous random variable x, which has a uniform distribution over the interval from 20 to 28.
Refer to Exhibit 6-1. The probability that x will take on a value of at least 26 is

A)0.000
B)0.125
C)0.250
D)1.000
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68
Excel's EXPON.DIST function can be used to compute

A)exponents
B)exponential probabilities
C)cumulative exponential probabilities
D)Both exponential probabilities and cumulative exponential probabilities are correct.
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69
An exponential probability distribution

A)is a continuous distribution
B)is a discrete distribution
C)can be either continuous or discrete
D)must be normally distributed
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70
Exhibit 6-4
The starting salaries of individuals with an MBA degree are normally distributed with a mean of $40,000 and a standard deviation of $5,000.
Refer to Exhibit 6-4. What is the probability that a randomly selected individual with an MBA degree will get a starting salary of at least $30,000?

A)0.4772
B)0.9772
C)0.0228
D)0.5000
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71
Exhibit 6-3
The weight of football players is normally distributed with a mean of 200 pounds and a standard deviation of 25 pounds.
Refer to Exhibit 6-3. What is the minimum weight of the middle 95% of the players?

A)196
B)151
C)249
D)None of the alternative answers is correct.
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72
Exhibit 6-2
The travel time for a college student traveling between her home and her college is uniformly distributed between 40 and 90 minutes.
Refer to Exhibit 6-2. The probability that she will finish her trip in 80 minutes or less is

A)0.02
B)0.8
C)0.2
D)1.00
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73
Exhibit 6-1
Consider the continuous random variable x, which has a uniform distribution over the interval from 20 to 28.
Refer to Exhibit 6-1. The variance of x is approximately

A)2.309
B)5.333
C)32
D)0.667
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74
Excel's EXPON.DIST function has how many inputs?

A)2
B)3
C)4
D)5
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75
Exhibit 6-3
The weight of football players is normally distributed with a mean of 200 pounds and a standard deviation of 25 pounds.
Refer to Exhibit 6-3. The probability of a player weighing less than 250 pounds is

A)0.4772
B)0.9772
C)0.0528
D)0.5000
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76
Exhibit 6-3
The weight of football players is normally distributed with a mean of 200 pounds and a standard deviation of 25 pounds.
Refer to Exhibit 6-3. The probability of a player weighing more than 241.25 pounds is

A)0.4505
B)0.0495
C)0.9505
D)0.9010
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77
Exhibit 6-2
The travel time for a college student traveling between her home and her college is uniformly distributed between 40 and 90 minutes.
Refer to Exhibit 6-2. What is the random variable in this experiment?

A)the uniform distribution
B)40 minutes
C)90 minutes
D)the travel time
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78
Exhibit 6-4
The starting salaries of individuals with an MBA degree are normally distributed with a mean of $40,000 and a standard deviation of $5,000.
Refer to Exhibit 6-4. What is the random variable in this experiment?

A)the starting salaries
B)the normal distribution
C)$40,000
D)$5,000
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79
When using Excel's EXPON.DIST function, one should choose TRUE for the third input if

A)a probability is desired
B)a cumulative probability is desired
C)the expected value is desired
D)the correct answer is desired
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80
Exhibit 6-3
The weight of football players is normally distributed with a mean of 200 pounds and a standard deviation of 25 pounds.
Refer to Exhibit 6-3. What is the random variable in this experiment?

A)the weight of football players
B)200 pounds
C)25 pounds
D)the normal distribution
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