course Mth 152 ꎻñ|assignment #006
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17:29:39 Query 12.1.6 8 girls 5 boys What is the probability that the first chosen is a girl?
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RESPONSE --> There are 8 possible chances out of 13 students to get a girl. 8/13 = 0.165
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17:29:55 ** Assuming the choice is completely random there are 13 possible choices, 8 of which are female so we have P(female) = 8 / 13 = .6154, approx. **
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RESPONSE --> Correct answer.
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17:32:25 Query 12.1.12 3 fair coins: Probability and odds of 3 Heads.
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RESPONSE --> For each coin, there are two outcomes (heads or tails). 2 * 2 * 2 = 8 Out of the 8 possible outcomes, only one outcome would consist of all heads or 1/8. The odds of getting all heads are 1 to 7.
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17:32:37 ** There are 8 equally likely possible outcomes when flipping 3 fair coins. You can list them: hhh, hht, hth, htt, thh, tht, tth, ttt. Or you can use the fact that there are 2 possibilities on each flip, therefore 2*2*2 = 2^3 = 8 possible outcomes. Only one of these outcomes, hhh, consists of 3 heads. The probability is therefore P(3 heads) = # of outcomes favorable/total number of possible outcomes = 1 / 8. The odds in favor of three heads are Odds ( 3 heads ) = # favorable to # unfavorable = 1 to 7. **
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RESPONSE --> Correct answer.
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17:34:26 Query 12.1.20 P(pink) from two pink parents (Rr and Rr) What is the probability of a pink offspring.
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RESPONSE --> R r R RR Rr r rR rr Rr would be pink so the probability of pink offspring would be 2/4 or 1/2.
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17:34:44 ** The genes R and r stand for the red and white genes. A pink offspring is either Rr or rR. RR will be red, rr white. R r R RR Rr r rR rr shows that {RR, Rr, rR, rr} is the set of equally likely outcomes. We season two of the four possible outcomes, rR and Rr, will be pink. So the probability of pink offspring is 2/4 = 1 / 2. **
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RESPONSE --> Correct answer.
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17:36:06 Query 12.1.33 cystic fibrosis in 1 of 2K cauc, 1 in 250k noncauc What is the empirical probability, to 6 places, that a randomly chosen non-Caucasian newborn will have cystic fibrosis?
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RESPONSE --> 1/250,000 = .000004
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17:36:15 ** There is 1 chance in 250,000 so the probability is 1 / 250,000 = 4 * 10^-6, or .000004. **
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RESPONSE --> Correct answer.
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17:38:51 12.1.40 Cc genes carrier, cc has disease; 2 carriers first child has disease **** What is the probability that the first child has the disease?
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RESPONSE --> C c C CC Cc c cC cc There is a 1/4 probability that the first child has the disease.
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17:38:58 ** If cc has the disease, then the probability that the first child will have the disease is 1/4. **
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RESPONSE --> Correct answer.
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17:39:24 What is the sample space for this problem?
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RESPONSE --> Sample space = {CC, Cc, cC, cc}
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17:39:32 ** The sample space is {CC, Cc. cC, cc}. **
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RESPONSE --> Correct answer.
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17:41:51 12.1.60 36 in class, 3 chosen **** What is the probability that the choice will be the given three people in any order?
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RESPONSE --> P(36,3) = 36!/(36-3)! = 36!/33! = 36 * 35 * 34 = 40,000 1/40,000 = .000025
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17:42:35 ** There are P(36,3) possible ordered choices of 3 people out of the 36. P(36,3) = 36! / (36-3)! = 36! / 33! = (36*35*34*33*32*31*...*1) / (33*32*31*...*1) = 36*35*34=40,000 or so. The probability of any given choice is therefore 1 / P(36,3) = 1/40,000 = .000025, approx.. For any given set of three people there are six possible orders in which they can be chosen. So the probability of the three given people, in any order, is 6 * probability of a given order = 6 / P(36,3) = 6/40,000 = .00015. Alternatively we can say that we are choosing 3 of 36 people without regard for order, so there are C(36,3) possibilities and the probability of any one of them is 1 / C(36,3). **
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RESPONSE --> I was headed in the right direction, but didn't finish the problem.
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17:46:13 Query 12.1.75 digits 1, 2, ..., 5 rand arranged; prob even, prob digits 1 and 5 even What is the probability that the resulting number is even and how did you obtain your answer?
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RESPONSE --> The number will be even only if it ends in 2 or 4. 2/5 possibilities for an even number. 5! = 120 possible arrangements for the 5 digits. P(2,2) = 2 P(3,3) = 6 2 * 6 = 12 12 possible out of 120 or 12/120 = 1/10
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17:46:50 ** The number will be even if it ends in 2 or 4. There are 5 possible ending numbers. So 2 of the 5 possible ending numbers are even and the probability of an even number is 2/5. We analyze in two ways the number of ways to choose a number with digits 1 and 5 even. First way: There are 5! = 120 possible arrangements of the 5 digits. There are only two possible even digits, from which we will choose digit 1 and digit 5. The order of our choice certainly matters, since a different choice will give us a different 5-digit number. So we are choosing 2 digits from a set of 2 digits, where order matters. We therefore have P(2, 2) = 2*1 / 0! = 2 ways to choose these digits. The remaining 3 digits will comprise digits 2, 3 and 4. We are therefore choosing 3 digits from a set of 3, in order. There are P(3, 3) = 3*2*1/0! = 6 ways to do so. To obtain our number we can choose digits 1 and 5, then digits 2, 3 and 4. There are P(2, 2) * P(3, 3) = 2 * 6 = 12 ways to do this. So the probability that digits 1 and 5 are even is 12 / 120 = 1/10. Second way: A simpler solution looks at just the possibilities for digits 1 and 5. There are P(2, 2) = 2 choices for which these digits are even, and P(5, 2) = 20 total choices for these two digits. The probability that both will be even is therefore 2/20 = 1/10, the same as before. **
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RESPONSE --> Correct answer.
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