A pair of fair dice is tOssed. DeTine the events A and B as folloWs. Complete parts a through a below. A: {A 4 is rolled} (The sum of the numbers of dots on the upper faces of the two dice is equal to 4.) B: {At least one of the two dice is showing a 3} (Simplify your answers. Type integers or fractions.) Since the probability of each sample point in A n B is and there is/are sample point(s) in An B, P(A N B) = (Simplify your answers. Type integers or fractions.) Since the probability of each sample point in A UB is and there is/are sample point(s) in AU B, P(A U B) = (Simplify your answers. Type integers or fractions.) Since the probability of each sample point in A is sample point(s) in A°, P (A°) = ]. and there is/are (Simplify your answers. Type integers or fractions.) c. Use the additive rule to find P(A U B). Compare your answer with that for the same event in part b. Jse the additive rule to find P(A U B). P(A U B) = (Simplify your answer. Type an integer or a fraction.) Compare your answer for P(A U B) in part c with that for the same event in part b. The result for P(A U B) using the additive rule is the result for P(A U B) from summing the probabilities of the sample points.

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Author:Amos Gilat
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Chapter1: Starting With Matlab
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A pair of fair dice is tOssed. DeTine the events A and B as folloWs. Complete parts a through a below.
A: {A 4 is rolled} (The sum of the numbers of dots on the upper faces of the two dice is equal to 4.)
B: {At least one of the two dice is showing a 3}
(Simplify your answers. Type integers or fractions.)
Since the probability of each sample point in A n B is
and there is/are
sample point(s) in An B, P(A N B) =
(Simplify your answers. Type integers or fractions.)
Since the probability of each sample point in A UB is
and there is/are
sample point(s) in AU B, P(A U B) =
(Simplify your answers. Type integers or fractions.)
Since the probability of each sample point in A is
sample point(s) in A°, P (A°) = ].
and there is/are
(Simplify your answers. Type integers or fractions.)
c. Use the additive rule to find P(A U B). Compare your answer with that for the same event in part b.
Jse the additive rule to find P(A U B).
P(A U B) =
(Simplify your answer. Type an integer or a fraction.)
Compare your answer for P(A U B) in part c with that for the same event in part b.
The result for P(A U B) using the additive rule is
the result for P(A U B) from summing the probabilities of the sample points.
Transcribed Image Text:A pair of fair dice is tOssed. DeTine the events A and B as folloWs. Complete parts a through a below. A: {A 4 is rolled} (The sum of the numbers of dots on the upper faces of the two dice is equal to 4.) B: {At least one of the two dice is showing a 3} (Simplify your answers. Type integers or fractions.) Since the probability of each sample point in A n B is and there is/are sample point(s) in An B, P(A N B) = (Simplify your answers. Type integers or fractions.) Since the probability of each sample point in A UB is and there is/are sample point(s) in AU B, P(A U B) = (Simplify your answers. Type integers or fractions.) Since the probability of each sample point in A is sample point(s) in A°, P (A°) = ]. and there is/are (Simplify your answers. Type integers or fractions.) c. Use the additive rule to find P(A U B). Compare your answer with that for the same event in part b. Jse the additive rule to find P(A U B). P(A U B) = (Simplify your answer. Type an integer or a fraction.) Compare your answer for P(A U B) in part c with that for the same event in part b. The result for P(A U B) using the additive rule is the result for P(A U B) from summing the probabilities of the sample points.
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