Question 4 2 out of 2 points What is the probability of rolling a number less than or equal to 6 on a six sided die? Selected Answer: 1 Correct Answer: 1 Response Feedback: P(event) = Question 5 2 out of 2 points What is the probability of picking a “g” in the word Georgia? Selected Answer: Correct Answer: Response Feedback: P(event) = Question 6 2 out of 2 points What is the probability of picking an “m” in the word Alabama? Selected
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Lesson 6.2: True or False Name___________________ Class______________ Date________ Write true if the statement is true or false if the statement is false. T 1. The rules of probability apply to genetics. T 2. If an individual has a Gg genotype‚ half of his gametes should have the G allele‚ and the other half should have the g allele. F 3. A Punnett square is a chart that allows you to easily determine the expected genotypes in the offspring of two parents. (expected percents) T 4. In a cross between
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equation for the cost of a system component: C _ (10 P ) 2 ‚ where C is the cost in dollars and P is the probability that the component will operate as expected. The system is composed of two identical components‚ both of which must operate for the system to operate. The engineer can spend $173 for the two components. To the nearest two decimal places‚ what is the largest component probability that can be achieved? 6. One of the industrial robots designed by a leading producer of servomechanisms
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1. Assume the resting heart rates for a sample of individuals are normally distributed with a mean of 70 and a standard deviation of 15. Use the 68-95-99 rule to find the following quantities: a. Percentage of rates less than 70 = 50% b. Percentage of rates less than 55 = 16% c. Relative frequency of rates less than 40 = 2.5% d. Percentage of rates less than 85 = 84% e. Relative frequency of rates less than 100 = 97.5% f. Percentage
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Chapter 9 Na¨ve Bayes ı David J. Hand Contents Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Algorithm Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Power Despite Independence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Extensions of the Model . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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and Oakes‚ D. Analysis of Survival Data‚ Chapman and Hall‚ (1984). [4] Dall’Aglio‚ G.‚ Frechet Classes and Compatibility of Distribution Functions‚ Symp. Math.‚ 9‚ (1972)‚ pp [5] Delianedis‚ G. and R. Geske‚ Credit Risk and Risk Neutral Default Probabilities: Information about Rating Migrations and Defaults‚ Working paper‚ The Anderson School at UCLA‚ (1998). [6] Duffie‚ D. and Singleton‚ K. Modeling Term Structure of Defaultable Bonds‚ Working paper‚ Graduate School of Business‚ Stanford University
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receives the following dollar returns a stock investment of $25: $1.00 of dividends Share price rise of $2.00 Calculate the investor’s total return. 3. Below are the probabilities for the economy’s five possible states next year‚ with the corresponding returns on the market and on Trebli‚ Inc.‚ stock Economic Condition Probability Market Return Trebli Return Rapid expansion 0.12 0.23 0.12 Moderate expansion 0.40 0.18 0.09 No growth 0.25 0.15 0.05 Moderate contraction 0.15 0.09
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DUNDALK INSTITUTE OF TECHNOLOGY | | | | | Bachelor of Science in Computing in Applications & Support - Semester 3 | Bachelor of Science in Computing in Networking & Support - Semester 3 | Bachelor of Science in Computing in Software Development - Semester 3 | | | Data Analysis for Computing | | Christmas 2010 | | | | | | | | | | | Dr. Fiona Lawless | | | | | | | Answer any FOUR questions | All questions carry
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P = price V = variable cost Fc = fixed cost t = time in yrs Chapter 11 quiz Q ‚ P ‚ V ‚ FC (based-plan‚ lower‚ upper) DEP = F0Costs / # yr’s Based price for (Q ‚ P ‚ V ‚ FC) multiply them each by WITHIN 10%‚ .10 than add‚ subtract Best case +P‚ +Q‚ -V‚ -FC Worst case –P‚ -Q‚ +V‚ +FC Best case scenario: OFC = [(Q+ x P+) – (Q+ x V-) – FC- – DEP] (1 - TAX RATE) +DEP high rev‚ low cost Worst case scenario: OCF= [(Q- x P-) – (Q- x V+) – FC+ – DEP] (1 - TAX RATE) +DEP high cost‚ low rev
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course. The probability of not passing if the student does not do the home work is 90%. What is the probability of a student not doing homework or passing? A. .32 B. .52 C. .94 D. .92 E. .38 Answer: D 2. Suppose that for a certain football game the probability that the home team will be ahead at half-time is 0.60 and the probability that the home team will be ahead at half- time as well as at the final gun is 0.45. What is the probability that the home
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