12-3 Query

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course Mth 152

2/13 11:29

If your solution to stated problem does not match the given solution, you should self-critique per instructions at

http://vhcc2.vhcc.edu/dsmith/geninfo/labrynth_created_fall_05/levl1_22/levl2_81/file3_259.htm.

Your solution, attempt at solution.

If you are unable to attempt a solution, give a phrase-by-phrase interpretation of the problem along with a statement of what you do or do not understand about it. This response should be given, based on the work you did in completing the assignment, before you look at the given solution.

008.

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question: Query 12.3.6 two members chosen for committee, Republican or no. Are the two choices independent or dependent and why?

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Your solution:

The choice of the 2nd is greatly influenced by the 1st choice. If a Republican is chosen on the 1st choice, then there are fewer Republicans available for the 2nd choice and the probability of getting a Republican on the 2nd choice is lower than if a Republican had not been chosen first.

confidence rating #$&*:

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3

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Given Solution:

`aThe choice of the second is influenced by the first choice. If a Republican is chosen on the first choice, then there are fewer Republicans available for the second choice and the probability of getting a Republican on the second choice is lower than if a Republican had not been chosen first.

COMMON ERROR: they are independant because they were randomly selected....if it is random then one did not depend on the other.

EXPLANATION: The selection was indeed random, but the makeup of the remaining group available on the second choice depends on the first choice. **

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question: Query 12.3.12 table of motivations by male, female

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3

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question:What is the probability that an individual will be primarily motivated by money or creativity given that the individual is female?

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Your solution:

There are 13 +14 = 27 motivated by money or creativity out of a total of 66 women which gives the probability 27/66 or 9/22.

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3

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Given Solution:

`a There are 13 primarily motivated by money and 14 by creativity. Each person can have only one primary motivation so there is no overlap between these two groups. There are thus 13 + 14 = 27 motivated by money or creativity, out of a total of 66 women, which gives probability 27 / 66 = 9/22 = .41 approx..

If M is the set motivated by money, C the set motivated by creativity and S the entire sample space then we have

p ( M or C) = p(M) + p(C) - p(M and C) or in set notation

p(M U C) = p(M) + p(C ) - p(M ^ C), with U and ^ standing for set union and intersection.

Since M ^ C is empty, p(M ^ C) = 0. p(M) = n(M) / n(S) = 13 / 66 and p(C) = n(C) / n(S) = 14/66 so we have

p (M U C) = 13/66 + 14/66 = 27/66 = 9/22 = .41 approx. **

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Self-critique Rating:

3

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question: Query 12.3.24 prob of club 2d given diamond first What is the desired probability and how did you obtain it?

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Your solution:

The probability is 13/51.

confidence rating #$&*:

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Given Solution:

`aThe probability is 13 / 51. When the second card is chosen there are 13 clubs still left, out of 51 remaining cards.

This can also be calculated using P(A|B) = P(A^B) / P(B). The probability of getting a diamond on the first card and a club on the second is 13/52 * 13/51. The probability of getting a diamond on the first card is 13/52. So the probability of a club on the second given a diamond on the first is (13 / 52 * 13 / 51) / (13/52) = 13/51. **

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3

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question: Query 12.3.32 prob of diamond given red What is the probability of getting a diamond given that the card is red?

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Your solution:

26 red cards, 13 diamonds so therefore the probability of getting a red diamond is 13/26 or ½.

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Given Solution:

`aOf the 26 red cards, 13 are diamonds. So the probability of a diamond, given red, is 13/26 = 1/2. **

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3

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question: Query 12.3.38 & 36 P(sale > $100) = .8; prob that first three sales all >$100 What is the probability that the first three sales are all for > $100 and how did you obtain your result?

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Your solution:

The events are independent so the total probability by using FCP is 0.8*0.8*0.8=0.512.

confidence rating #$&*:

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3

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Given Solution:

`athe first sale has to be > $100, AND the second sale has to be > $100, AND the third sale has to be > $100.

The events are independent. So the total probability, by the fundamental counting principle, is

.8 * .8 * .8 = .512. **

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Self-critique Rating:

3

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question: Query 12.3.42 P(critical direction) = .05; prob that none of the 5 scheduled days for launches has cloud movement in critical direction

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Your solution:

Independent events so therefore the probability is 0.95*0.95*0.95*0.95*0.95 = 0.774.

confidence rating #$&*:

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Given Solution:

`aOn a given day cloud movement is not in critical direction with probability 1 - .05 = .95. this has to occur on the first day, then it has to occur on the second day, then on the third, then on the fourth, then on the fifth. These events are considered independent so the probability is .95 * .95 * .95 * .95 * .95 = .774 approx. (use your calculator to get the accurate answer).

In order for none of the five days to have cloud movement in the critical direction, each of the five days must not have movement in the critical direction.

The probability that the movement will not the in the critical direction for each of the days is .95. The probability that this will happen on every one of the five days is therefore .95 * .95 * .95 * .95 * .95 = .774, approx. **

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Self-critique Rating:

3

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question: Query 12.3.54 probability of heads .52, tails .48; P(ht)

What is the probability of head then tails?

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Your solution:

By using the fundamental counting principle, there is a probability of 0.52*0.48 or 0.2496 of getting heads THEN tails.

confidence rating #$&*:

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3

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Given Solution:

`aThere is a .52 probability of getting heads, then there is a .48 probability a getting tails. The two events have to happen consecutively. By the Fundamental Counting Principle there is thus a probability of .52 * .48 = .2496 of getting Heads then Tails. **

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Self-critique (if necessary):

OK

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Self-critique Rating:

3

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Question: Query 12.3.66 for given day P(rain)=.5, P(rain | rain day before) = .8, P(rain | no rain day before ) = .3. find P(rain on 3 consecutive days). For first 4 days in November what is the probability that it will rain on all four days given Oct 31 is clear?

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Your solution:

Use the fundamental counting principle by saying 0.3*0.8*0.8*0.8= 0.154.

confidence rating #$&*:

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3

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Given Solution:

`aThe probability of rain on the first of the four days is .3, since it is given that there was no rain on the previous day. The probability of rain on each of the following for days is .8, since on each of these days it rained the day before.

The probability of rain on all four days is therefore .3 * .8 * .8 * .8 = .154.

ANOTHER WAY OF SAYING IT:

Oct 31 was clear so the probability of rain on the first day is .3.

If it rained on the first day of the month then there is a probability of .8 that it rains on the second day.

If it rained on the second day of the month then there is a probability of .8 that it rains on the third day.

If it rained on the third day of the month then there is a probability of .8 that it rains on the fourth day.

So the probability of rain on all 4 days is .3 * .8 * .8 * .8 = .154 **

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Self-critique Rating:

3

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question: Query 12.3.66 for given day P(rain)=.5, P(rain | rain day before) = .8, P(rain | no rain day before ) = .3.

What is P(rain on 3 consecutive days).

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Your solution:

Use fundamental counting principle and say 0.5*0.8*0.8= 0.32.

confidence rating #$&*:

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3

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Given Solution:

`aTo get rain on 3 consecutive days requires rain on the first day, which happens with probability .5; then rain on the second day given that there was rain on the first day, which is .8, then rain on the third day, given that there was rain on the previous day; this third probability is also .8.

The probability of the 3 events all happening (rain of 1st day AND rain on the second day AND rain on the third day) is therefore .5 * .8 * .8 = .32. **

QUESTION ON PROBLEM 33:

Please explain Problem 33 of 12.3. It reads:

If one number is chosen randomly from the intergers 1 throught 10, the probability of getting a number that is odd and prime, by the general multiplication rule is

P(odd) * P(prime/odd) = 5/10 * 3/5 = 3/10

My question is how did we get three prime numbers out of 1 through 10? I assumed there were 4 of them (2, 3, 5, and 7).

** ONE ANSWER: The sample space is reduced to odd numbers, and 2 is not odd. So the set within the restricted sample space {1, 3, 5, 7, 9} should just be {3, 5, 7}.

ANOTHER ANSWER: If we don't use the restricted sample space then we have P(prime | odd ) = P(prme) * P(odd | prime). We find P(prime) and P(odd | prime).

P(prime) = 4 / 10, since there are 4 primes between 1 and 10. Within the unrestricted sample space P(odd | prime) is 3 / 4 since of the primes 2, 3, 5, 7 only three are odd.

}Thus when you multiply P(prme) * P(odd | prime) you get 4/10 * 3/4 = 3/10, just as before. **

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3

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question: Query Add comments on any surprises or insights you experienced as a result of this assignment.

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question: Query Add comments on any surprises or insights you experienced as a result of this assignment.

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