All SAT Math Resources
Example Questions
Example Question #91 : Outcomes
All of Jean's brothers have red hair.
If the statement above is true, then which of the following CANNOT be true?
If Paul is not Jean's brother, then he has red hair.
If Eddie is Jean's brother, then he does not have red hair.
If Winston does not have red hair, then he is not Jean's brother.
If George does not have red hair, then he is Jean's brother.
If Ron has red hair, then he is Jean's brother.
If Eddie is Jean's brother, then he does not have red hair.
Here we have a logic statement:
If A (Jean's brother), then B (red hair).
"If Ron has red hair, then he is Jean's brother" states "If B, then A" - we do not know whether or not this is true.
"If Winston does not have red hair, then he is not Jean's brother" states "If not B, then not A" - this has to be true.
"If Paul is not Jean's brother, then he has red hair" states "If not A, then B." We do not know whether or not this is true.
"If Eddie is Jean's brother, then he does not have red hair" states "If A, then not B" - we know this cannot be true.
Example Question #1821 : Problem Solving Questions
An auto insurer underwrites its 60 customers and classifies them in 3 mutually exclusive risk classes. 15 of the customers are in the high-risk class, 35 are in the moderate-risk class, and 10 are in the low-risk class. What is the probability that a randomly selected customer will be in the moderate- or high-risk class?
The probability that a randomly selected customer is in the moderate- or high-risk class is simply the sum of the number of clients in the moderate-risk class and the number of clients in the high-risk class divided by the total number of clients:
This is also equivalent to just summing up the probability of being in the high-risk class and the probability of being in the moderate-risk class. Since the 3 classes are mutually exclusive, we do not have to worry about subtracting the probability of mutual elements.
Example Question #91 : How To Find The Probability Of An Outcome
Ben only goes to the park when it is sunny.
If the above statement is true, which of the following is also true?
If it is not sunny, Ben is not at the park.
If it is rainy, Ben is at the park.
If it is sunny, Ben is at the park.
If Ben is not at the park, it is not sunny.
If it is not sunny, Ben is not at the park.
“Ben only goes to the park when it is sunny.” This means it has to be sunny out for Ben to go to the park, but it does not mean that he always is at the park when it is sunny. Looking at the first choice we can say that this is not necessarily true because it could be sunny and Ben doesn’t have to be at the park. Similar reasoning would prove the second choice wrong as well. The third choice is correct-Ben only is at the park when it is sunny, so he’s definitely not there when it’s not sunny. The fourth choice is clearly wrong because we know Ben only goes when it is sunny, not when it’s rainy.
Example Question #51 : Calculating Discrete Probability
Presented with a deck of fifty-two cards (no jokers), what is the probability of drawing either a face card or a spade?
A face card constitutes a Jack, Queen, or King, and there are twelve in a deck, so the probability of drawing a face card is .
There are thirteen spades in the deck, so the probability of drawing a spade is .
Keep in mind that there are also three cards that fit into both categories: the Jack, Queen, and King of Spades; the probability of drawing one is
Thus the probability of drawing a face card or a spade is:
Example Question #44 : Probability
A coin is flipped four times. What is the probability of getting heads at least three times?
Since this problem deals with a probability with two potential outcomes, it is a binomial distribution, and so the probability of an event is given as:
Where is the number of events, is the number of "successes" (in this case, a "heads" outcome), and is the probability of success (in this case, fifty percent).
Per the question, we're looking for the probability of at least three heads; three head flips or four head flips would satisfy this:
Thus the probability of three or more flips is:
Example Question #41 : Probability
Rolling a four-sided dice, what is the probability of rolling a three times out of four?
Since this problem deals with a probability with two potential outcomes, it is a binomial distribution, and so the probability of an event is given as:
Where is the number of events, is the number of "successes" (in this case rolling a four), and is the probability of success (one in four).
Example Question #1541 : Psat Mathematics
A coin is flipped seven times. What is the probability of getting heads six or fewer times?
Since this problem deals with a probability with two potential outcomes, it is a binomial distribution, and so the probability of an event is given as:
Where is the number of events, is the number of "successes" (in this case, a "heads" outcome), and is the probability of success (in this case, fifty percent).
One approach is to calculate the probability of flipping no heads, one head, two heads, etc., all the way to six heads, and adding those probabilities together, but that would be time consuming. Rather, calculate the probability of flipping seven heads. The complement to that would then be the sum of all other flip probabilities, which is what the problem calls for:
Therefore, the probability of six or fewer heads is:
Example Question #1548 : Psat Mathematics
Set A:
Set B:
One letter is picked from Set A and Set B. What is the probability of picking two consonants?
Set A:
Set B:
In Set A, there are five consonants out of a total of seven letters, so the probability of drawing a consonant from Set A is .
In Set B, there are three consonants out of a total of six letters, so the probability of drawing a consonant from Set B is .
The question asks for the probability of drawing two consonants, meaning the probability of drawing a constant from Set A and Set B, so probability of the intersection of the two events is the product of the two probabilities:
Example Question #52 : Calculating Discrete Probability
Set A:
Set B:
One letter is picked from Set A and Set B. What is the probability of picking at least one consonant?
Set A:
Set B:
In Set A, there are five consonants out of a total of seven letters, so the probability of drawing a consonant from Set A is .
In Set B, there are three consonants out of a total of six letters, so the probability of drawing a consonant from Set B is .
The question asks for the probability of drawing at least one consonant, which can be interpreted as a union of events. To calculate the probability of a union, sum the probability of each event and subtract the intersection:
The interesection is:
So, we can find the probability of drawing at least one consonant:
Example Question #42 : Data Analysis / Probablility
Set A:
Set B:
One letter is drawn from Set A, and one from Set B. What is the probability of drawing a matching pair of letters?
Set A:
Set B:
Between Set A and Set B, there are two potential matching pairs of letters: AA and XX. The amount of possible combinations is the number of values in Set A, multiplied by the number of values in Set B, .
Therefore, the probability of drawing a matching set is:
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