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Deck 6: Probability

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Question
If an event can occur five times out of 100, its probability value is

A) .20
B) .80
C) .95
D) .05
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to flip the card.
Question
Probability is based on how often a given event

A) will occur out of 100
B) will occur out of 52 times
C) will occur just once
D) will not occur at all
Question
Odds against are based on how often a given event

A) will occur out of 100 times
B) will occur out of any number of times
C) will occur just once
D) will not occur at all, to the number of times it will
Question
The so-called "Gambler's Fallacy" makes the mistake of not recognizing

A) the low-probability events
B) the high-probability events
C) the independent-events situation
D) that losses occur more frequently than wins
Question
If the odds against an event are 5 to 1, the probability of its occurrence is

A) .17
B) .05
C) .01
D) .25
Question
Suppose you had flipped a fair coin 19 times and "tails" had come up each time. The probability of now tossing a "head" on the 20th flip would then be

A) .50
B) .05
C) .95
D) .99
Question
A probability value of .25 means that an event will occur

A) once out of 25 times
B) 25 times out of 100
C) once out of 5 times
D) 75 times out of 100
Question
Probability is equal to

A) s/t
B) t/s
C) odds divided by chances
D) none of these
Question
If the odds against an event are 19 to 1, the probability of its occurrence is

A) .17
B) .05
C) .01
D) .25
Question
If an event has a probability value of .95, its frequency of occurrence is

A) 5%
B) 95%
C) 19 to 1
D) 47.5%
Question
When events cannot influence or be influenced by other events, they are said to be

A) low-probability events
B) high-probability events
C) chance events
D) independent events
Question
Suppose you had flipped a coin 19 times and "heads" had come up each time. The probability of flipping a "head" on the 20th flip would then be

A) .50
B) .05
C) .95
D) .01
Question
If the odds against an event are 3 to 1, the probability of its occurrence is

A) .17
B) .05
C) .01
D) .25
Question
If an event can occur once out of 20 times, its probability value is

A) .20
B) .80
C) .95
D) .05
Question
When tossing coins, the frequency of occurrence of "heads" turning up is

A) .50
B) .50%
C) 1 to 1
D) 50%
Question
Probability is defined as

A) the number of total events over the number of chances
B) the chances an event cannot occur over the chances it can
C) the number of times a specific event will occur over thee total number of events
D) the total number of events over the number of times a specific event will
Question
When the frequency of an event is 75%, its probability is

A) 3 to 1
B) .25
C) .67
D) none of these
Question
When the frequency of an event is 95%, its probability is

A) .95
B) .05
C) .50
D) Cannot be found from the information given
Question
The so-called law of averages only applies

A) under controlled conditions
B) when the probabilities are conditional
C) in the long run
D) in the short run
Question
When the frequency of an event is 25%, its probability is

A) 3 to 1
B) .25
C) .75
D) none of these
Question
When combining probabilities, to find the probability of one event AND another event, the separate probabilities should be

A) multiplied
B) divided
C) subtracted
D) added
Question
Under the normal curve, the probability of any single score being above the 50th percentile is

A) 0
B) .16
C) .34
D) .50
Question
The probability of obtaining a z score of +1.00 or higher, is

A) 1.00
B) .16
C) .84
D) .34
Question
Under the normal curve, the probability of a score occurring below the mean is

A) .68
B) .50
C) 2 to 1
D) .68%
Question
Under the normal curve, the probability of a score occurring above the mean is

A) .68
B) .50
C) 2 to 1
D) .68%
Question
Under the normal curve, the probability of a score occurring within one standard deviation (plus or minus) of the mean is

A) .68
B) .50
C) 2 to 1
D) .68%
Question
No probability value may ever be less than

A) 1.00
B) .99
C) 0
D) there is no upper limit to the size of a given probability value
Question
When an event must occur, its probability value is

A) .99
B) 1.00
C) 0
D) 100%
Question
When an event cannot occur, its probability value is

A) .99
B) 1.00
C) 0
D) 100%
Question
The use of z scores for obtaining probabilities is only possible when

A) the events are independent
B) the probabilities are conditional
C) the distribution curve is symmetrical
D) the distribution curve is normal
Question
All probability values lie within the range of +1 to -1.00.
Question
Under the normal curve, the probability of any score falling below the 50th percentile, is

A) 0
B) .16
C) -.50
D) .50
Question
Under the normal curve, the probability of any single score being between z scores of + 3.00, is

A) 1.00
B) -1.00
C) .99
D) .50
Question
Under the normal curve, the probability of any single score falling below the mean is

A) 0
B) .16
C) .34
D) .50
Question
The probability of obtaining a z score of +1.00 or lower, is

A) 1.00
B) .16
C) .84
D) .34
Question
No probability value may ever be greater than

A) 1.00
B) .99
C) 0
D) there is no upper limit to the size of a given probability value
Question
When combining probabilities, to find the probability of one event OR another event, the separate probabilities should be

A) multiplied
B) divided
C) subtracted
D) added
Question
When tossing coins, the odds against a "head" turning up are

A) .50
B) .50%
C) 1 to 1
D) 2 to 1
Question
The reason z scores may be used to calculate probabilities is that

A) frequencies are easily converted into probabilities
B) all z scores are independent of each other
C) all z scores are included within a standard deviation unit (plus or minus) of the mean
D) all z scores are included within 2 standard deviation units (plus or minus)
Question
The probability of obtaining a z score of 0 or above is

A) 0
B) .16
C) .34
D) .50
Question
When the odds against an event occurring are 9 to 1, the probability that the event will occur is .10.
Question
A negative z score must yield a positive probability value.
Question
The "Gambler's Fallacy" overlooks the fact that probability values may never be greater than 100.
Question
The probability of any event occurring above the mean is at least .68.
Question
When events are included between two negative z scores the probability value for those events must be less than .50.
Question
Under the normal curve, the exclusion of the most extreme scores refers only to the highest scores in the distribution.
Question
The ratio, specific event divided by total events, defines probability.
Question
The mean weight for a group of students is 130 pounds, with an SD of 8 pounds. What is the probability of selecting a single student who weighs 125 pounds or more?
Question
Probability is always stated in terms of how often an event will occur.
Question
On a normal distribution 68% of the cases must fall above the mean
Question
When a specific event has a probability value of .05, then its frequency of occurrence is 95%.
Question
When an event must occur, its probability is 100.
Question
If a coin is flipped 10 times, and by chance, heads turn up 10 times, on the next flip the probability of again obtaining a head is .50.
Question
An event which occurs at a high frequency also has a high probability of occurring.
Question
The probability of any event falling within one standard deviation of the mean (plus or minus) is .
Question
No probability value can ever be greater than 1.00.
Question
The mean is 55 with an SD of 15. What is the probability of selecting at random a score which falls between 60 and 65?
Question
A probability value of 0 indicates that the event can never occur
Question
The probability that any given event may be included between two positive z scores must be greater than .50.
Question
When an event occurs at a frequency of 95%, its probability value is .05.
Question
With a mean of 95 and an SD of 12, what is the probability of selecting at random a score of between 89 and 101?
Question
A certain air-force missile has an average range of 1500 miles with a standard deviation of 62 miles. What is the probability that any single shot will travel 1400 miles or less?
Question
Using data from the previous problem, what is the probability of selecting an inmate who had NOT recidivated?

A) .36
B) .64
C) .50
D) .46.
Question
With a mean of 60 and an SD of 4, what is the probability of selecting at random a score between 56 and 58?
Question
With a mean of 55 and an SD of 6, what is the probability of selecting at random someone scoring between 48 and 50?
Question
At a certain race track, the horses run the mile in an average time of 135 seconds, with an SD of 13 seconds. What is the probability of selecting at random a horse that could run the mile in 130 seconds or less?
Question
In a certain house of correction, 64% percent of the current population of inmates had recidivated. What is the probability of selecting an inmate at random who had recidivated?

A) .36
B) .64
C) .50
D) .46
Question
At a certain prison it was found that 71% of the inmates had had a first arrest at the age of 15 or younger. It was also found that 70% of the population were identified as having had a drug problem. What is the probability of selecting at random an inmate who had been arrested at 15 or younger and had also been identified as having a drug problem?

A) .14
B) .50 c .95
D) .46
Question
With a mean of 70 and an SD of 10, what is the probability of selecting a score of between 75 and 90?
Question
The mean IQ in a certain sorority is 120 with an SD of 5. What is the probability of selecting at random a student whose IQ is between 130 and 135?
Question
Using data from the previous problem, what is the probability of selecting at random a participant who had had a losing evening?

A) .12
B) .24
C) .48
D) .88
Question
At a certain college, the mean college-board score in math is 400 with an SD of 97. What is the probability of selecting at random a student who scored between 370 and 450?
Question
If the probability of a certain event is .50 and the probability of a second event is .50, what is the probability of having the first event occur OR the second event occur?

A) .25
B) .50
C) .75
D) 1.00
Question
The average life of a certain light bulb is 200 hours with an SD of 27 hours. What is the probability of selecting at random a bulb lasting 150 hours or less?
Question
At a certain casino on a certain day, 12% of the participants left at the end of the evening as winners (had more money than when they entered). What is the probability of selecting at random a participant who had had a winning evening? a .12

A) .24
C) .48
D) .88
Question
With a mean of 40 and an SD of 20.45, what is the probability of selecting at random a score of 45 or higher?
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Deck 6: Probability
1
If an event can occur five times out of 100, its probability value is

A) .20
B) .80
C) .95
D) .05
D
2
Probability is based on how often a given event

A) will occur out of 100
B) will occur out of 52 times
C) will occur just once
D) will not occur at all
A
3
Odds against are based on how often a given event

A) will occur out of 100 times
B) will occur out of any number of times
C) will occur just once
D) will not occur at all, to the number of times it will
D
4
The so-called "Gambler's Fallacy" makes the mistake of not recognizing

A) the low-probability events
B) the high-probability events
C) the independent-events situation
D) that losses occur more frequently than wins
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5
If the odds against an event are 5 to 1, the probability of its occurrence is

A) .17
B) .05
C) .01
D) .25
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6
Suppose you had flipped a fair coin 19 times and "tails" had come up each time. The probability of now tossing a "head" on the 20th flip would then be

A) .50
B) .05
C) .95
D) .99
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7
A probability value of .25 means that an event will occur

A) once out of 25 times
B) 25 times out of 100
C) once out of 5 times
D) 75 times out of 100
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8
Probability is equal to

A) s/t
B) t/s
C) odds divided by chances
D) none of these
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9
If the odds against an event are 19 to 1, the probability of its occurrence is

A) .17
B) .05
C) .01
D) .25
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10
If an event has a probability value of .95, its frequency of occurrence is

A) 5%
B) 95%
C) 19 to 1
D) 47.5%
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11
When events cannot influence or be influenced by other events, they are said to be

A) low-probability events
B) high-probability events
C) chance events
D) independent events
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12
Suppose you had flipped a coin 19 times and "heads" had come up each time. The probability of flipping a "head" on the 20th flip would then be

A) .50
B) .05
C) .95
D) .01
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13
If the odds against an event are 3 to 1, the probability of its occurrence is

A) .17
B) .05
C) .01
D) .25
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14
If an event can occur once out of 20 times, its probability value is

A) .20
B) .80
C) .95
D) .05
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15
When tossing coins, the frequency of occurrence of "heads" turning up is

A) .50
B) .50%
C) 1 to 1
D) 50%
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k this deck
16
Probability is defined as

A) the number of total events over the number of chances
B) the chances an event cannot occur over the chances it can
C) the number of times a specific event will occur over thee total number of events
D) the total number of events over the number of times a specific event will
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17
When the frequency of an event is 75%, its probability is

A) 3 to 1
B) .25
C) .67
D) none of these
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18
When the frequency of an event is 95%, its probability is

A) .95
B) .05
C) .50
D) Cannot be found from the information given
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19
The so-called law of averages only applies

A) under controlled conditions
B) when the probabilities are conditional
C) in the long run
D) in the short run
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Unlock Deck
k this deck
20
When the frequency of an event is 25%, its probability is

A) 3 to 1
B) .25
C) .75
D) none of these
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21
When combining probabilities, to find the probability of one event AND another event, the separate probabilities should be

A) multiplied
B) divided
C) subtracted
D) added
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22
Under the normal curve, the probability of any single score being above the 50th percentile is

A) 0
B) .16
C) .34
D) .50
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23
The probability of obtaining a z score of +1.00 or higher, is

A) 1.00
B) .16
C) .84
D) .34
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24
Under the normal curve, the probability of a score occurring below the mean is

A) .68
B) .50
C) 2 to 1
D) .68%
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25
Under the normal curve, the probability of a score occurring above the mean is

A) .68
B) .50
C) 2 to 1
D) .68%
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26
Under the normal curve, the probability of a score occurring within one standard deviation (plus or minus) of the mean is

A) .68
B) .50
C) 2 to 1
D) .68%
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27
No probability value may ever be less than

A) 1.00
B) .99
C) 0
D) there is no upper limit to the size of a given probability value
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28
When an event must occur, its probability value is

A) .99
B) 1.00
C) 0
D) 100%
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29
When an event cannot occur, its probability value is

A) .99
B) 1.00
C) 0
D) 100%
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30
The use of z scores for obtaining probabilities is only possible when

A) the events are independent
B) the probabilities are conditional
C) the distribution curve is symmetrical
D) the distribution curve is normal
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31
All probability values lie within the range of +1 to -1.00.
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k this deck
32
Under the normal curve, the probability of any score falling below the 50th percentile, is

A) 0
B) .16
C) -.50
D) .50
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33
Under the normal curve, the probability of any single score being between z scores of + 3.00, is

A) 1.00
B) -1.00
C) .99
D) .50
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34
Under the normal curve, the probability of any single score falling below the mean is

A) 0
B) .16
C) .34
D) .50
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35
The probability of obtaining a z score of +1.00 or lower, is

A) 1.00
B) .16
C) .84
D) .34
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36
No probability value may ever be greater than

A) 1.00
B) .99
C) 0
D) there is no upper limit to the size of a given probability value
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37
When combining probabilities, to find the probability of one event OR another event, the separate probabilities should be

A) multiplied
B) divided
C) subtracted
D) added
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38
When tossing coins, the odds against a "head" turning up are

A) .50
B) .50%
C) 1 to 1
D) 2 to 1
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Unlock Deck
k this deck
39
The reason z scores may be used to calculate probabilities is that

A) frequencies are easily converted into probabilities
B) all z scores are independent of each other
C) all z scores are included within a standard deviation unit (plus or minus) of the mean
D) all z scores are included within 2 standard deviation units (plus or minus)
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40
The probability of obtaining a z score of 0 or above is

A) 0
B) .16
C) .34
D) .50
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41
When the odds against an event occurring are 9 to 1, the probability that the event will occur is .10.
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42
A negative z score must yield a positive probability value.
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k this deck
43
The "Gambler's Fallacy" overlooks the fact that probability values may never be greater than 100.
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k this deck
44
The probability of any event occurring above the mean is at least .68.
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k this deck
45
When events are included between two negative z scores the probability value for those events must be less than .50.
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Unlock Deck
k this deck
46
Under the normal curve, the exclusion of the most extreme scores refers only to the highest scores in the distribution.
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k this deck
47
The ratio, specific event divided by total events, defines probability.
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k this deck
48
The mean weight for a group of students is 130 pounds, with an SD of 8 pounds. What is the probability of selecting a single student who weighs 125 pounds or more?
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k this deck
49
Probability is always stated in terms of how often an event will occur.
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k this deck
50
On a normal distribution 68% of the cases must fall above the mean
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k this deck
51
When a specific event has a probability value of .05, then its frequency of occurrence is 95%.
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k this deck
52
When an event must occur, its probability is 100.
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53
If a coin is flipped 10 times, and by chance, heads turn up 10 times, on the next flip the probability of again obtaining a head is .50.
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54
An event which occurs at a high frequency also has a high probability of occurring.
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55
The probability of any event falling within one standard deviation of the mean (plus or minus) is .
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56
No probability value can ever be greater than 1.00.
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k this deck
57
The mean is 55 with an SD of 15. What is the probability of selecting at random a score which falls between 60 and 65?
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58
A probability value of 0 indicates that the event can never occur
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k this deck
59
The probability that any given event may be included between two positive z scores must be greater than .50.
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k this deck
60
When an event occurs at a frequency of 95%, its probability value is .05.
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k this deck
61
With a mean of 95 and an SD of 12, what is the probability of selecting at random a score of between 89 and 101?
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k this deck
62
A certain air-force missile has an average range of 1500 miles with a standard deviation of 62 miles. What is the probability that any single shot will travel 1400 miles or less?
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Unlock for access to all 76 flashcards in this deck.
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k this deck
63
Using data from the previous problem, what is the probability of selecting an inmate who had NOT recidivated?

A) .36
B) .64
C) .50
D) .46.
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64
With a mean of 60 and an SD of 4, what is the probability of selecting at random a score between 56 and 58?
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65
With a mean of 55 and an SD of 6, what is the probability of selecting at random someone scoring between 48 and 50?
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66
At a certain race track, the horses run the mile in an average time of 135 seconds, with an SD of 13 seconds. What is the probability of selecting at random a horse that could run the mile in 130 seconds or less?
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67
In a certain house of correction, 64% percent of the current population of inmates had recidivated. What is the probability of selecting an inmate at random who had recidivated?

A) .36
B) .64
C) .50
D) .46
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68
At a certain prison it was found that 71% of the inmates had had a first arrest at the age of 15 or younger. It was also found that 70% of the population were identified as having had a drug problem. What is the probability of selecting at random an inmate who had been arrested at 15 or younger and had also been identified as having a drug problem?

A) .14
B) .50 c .95
D) .46
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69
With a mean of 70 and an SD of 10, what is the probability of selecting a score of between 75 and 90?
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70
The mean IQ in a certain sorority is 120 with an SD of 5. What is the probability of selecting at random a student whose IQ is between 130 and 135?
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71
Using data from the previous problem, what is the probability of selecting at random a participant who had had a losing evening?

A) .12
B) .24
C) .48
D) .88
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72
At a certain college, the mean college-board score in math is 400 with an SD of 97. What is the probability of selecting at random a student who scored between 370 and 450?
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73
If the probability of a certain event is .50 and the probability of a second event is .50, what is the probability of having the first event occur OR the second event occur?

A) .25
B) .50
C) .75
D) 1.00
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74
The average life of a certain light bulb is 200 hours with an SD of 27 hours. What is the probability of selecting at random a bulb lasting 150 hours or less?
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75
At a certain casino on a certain day, 12% of the participants left at the end of the evening as winners (had more money than when they entered). What is the probability of selecting at random a participant who had had a winning evening? a .12

A) .24
C) .48
D) .88
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76
With a mean of 40 and an SD of 20.45, what is the probability of selecting at random a score of 45 or higher?
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