next up previous
Next: About this document ...

EXAM II

1) Let $ E$ and $ F$ be events. Assume $ P(E)=.7, P(F)=.7$, and $ P( E \bigcap F)=.6$. Find $ P ( E \bigcup F)$ .


2) A pair of dice is tossed. What is the probability of getting two twos?


A coin is tossed and then a die is rolled.

3) How many outcomes are there?


4) Write down a valid sample space for this experiment.


5) What is the probability of having thrown a tails and an odd number?


6) Let $ E$ and $ F$ be independent events. Assume $ p(E)=.6$ and $ P(F)=.8$. Find $ P ( E \bigcap F)$.


7) A coin is tossed 9 times. What is the probability of obtaining at least one tail?


8) If $ P(E)=.8$ and $ P(E \bigcap F) =.4$ , find $ P(F\vert E)$.


9) A sample of 5 balls is to be drawn from a box containing 5 red and 7 white balls. Find the probability that the sample contains 2 red and 3 white balls.


10) If $ E$ and $ F$ are independent events, and if $ P(E)=.6$ and $ P(F)=.5$, find $ P ( E \bigcup F)$.


11) If $ P(E \vert F) =.6$ and $ P(F)=.5$ find $ P ( E \bigcap F)$.


12) Each person in a class of 24 students is randomly assigned a number between 1 and 20. If six students are selected from the class, what is the probability that they have different numbers?.


A preference pole is taken by questioning voters at random in the Philadelphia.and Pittsburgh areas. The probability that a random voter is from the Pittsburgh area is .4 while from the Philadelphia area is .6. It was found that the probability that a random voter from Pittsburgh was a Democrat was .3, and a Republican was .7. It was also found that the probability that a random voter from Philadelphia was a Democrat was .6 and a Republican was .4.


13) Represent this data as a tree diagram.


14)Find the probability that a random voter is both a Republican and from Pittsburgh.


15)Find the probability that a random voter is a Republican.


17)Find the probability that a random Republican voter is from Pittsburgh.



next up previous
Next: About this document ...
Martin Bendersky 2000-11-21