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Chapter 4: Q146E (page 277)

Boeing 787 Dreamliner. An assessment of the new Boeing 787 “Dreamliner” airplane was published in the Journal of Case Research in Business and Economics (December 2014). Boeing planned to build and deliver 3,500 of these aircraft within the first 20 years of the 787 program. The researchers used simulation to estimate the number of annual deliveries of 787 airplanes (expressed as a percentage of total Boeing aircraft deliveries during the year). In the fifth year of the program, deliveries were uniformly distributed over the range 2.5% to 5.5%. Assuming the simulated results are accurate, what is the probability that the number of Boeing 787s built and delivered in the fifth year of the program exceeds 4% of the total Boeing aircraft deliveries during the year?

Short Answer

Expert verified

The probability that the number of Boeing 787s built and delivered in the program's fifth year exceeds 4% of the total Boeing aircraft deliveries during the year is 0.5.

Step by step solution

01

Given information

The deliveries of 787 Dreamliner airplanes in the fifth year of the 787 programs are expressed as a percentage of total Boeing aircraft deliveries during the year.

02

Define the random variable and compute the probability

Let X denotes the percentage of Boeing 787s delivered in the fifth year of the program of the total Boeing aircraft.

Therefore, X is uniformly distributed in the interval between 2.5 and 5.5.

The probability that the number of Boeing 787s built and delivered in the fifth year of the program exceeds 4% of the total Boeing aircraft deliveries during the year is obtained as:

PX>4=P4<X<5.5=5.5-45.5-2.5=1.53=0.5

For the uniform distribution: P(a<x<b)=b-ad-c,ca<bd.

Therefore, the required probability is 0.5.

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Most popular questions from this chapter

Checkout lanes at a supermarket. A team of consultants working for a large national supermarket chain based in the New York metropolitan area developed a statistical model for predicting the annual sales of potential new store locations. Part of their analysis involved identifying variables that influence store sales, such as the size of the store (in square feet), the size of the surrounding population, and the number of checkout lanes. They surveyed 52 supermarkets in a particular region of the country and constructed the relative frequency distribution shown below to describe the number of checkout lanes per store, x.

a. Why do the relative frequencies in the table represent the approximate probabilities of a randomly selected supermarket having x number of checkout lanes?

b. FindE(x) and interpret its value in the context of the problem.

c. Find the standard deviation of x.

d. According to Chebyshev’s Rule (Chapter 2, p. 106), what percentage of supermarkets would be expected to fall withinμ±σ? withinμ±2σ?

e. What is the actual number of supermarkets that fall within? ? Compare your answers with those of part d. Are the answers consistent?

Given that xis a poisson random variable, computep(x)for each of the following cases:

a.λ=2,x=3

b.λ=1,x=4

c.λ=0.5,x=2

Assume that xis a random variable best described by a uniform distribution with c=10andd=90.

a. Findf(x).

b. Find the mean and standard deviation of x.

c. Graph the probability distribution for xand locate its mean and theintervalon the graph.

d. FindP(x60).

e. FindP(x90).

f. FindP(x80).

g. FindP(μ-σxμ+σ).

h. FindP(x>75).

The binomial probability distribution is a family of probability distributions with every single distribution depending on the values of n and p. Assume that x is a binomial random variable with n = 4.

  1. Determine a value of p such that the probability distribution of x is symmetric.
  2. Determine a value of p such that the probability distribution of x is skewed to the right.
  3. Determine a value of p such that the probability distribution of x is skewed to the left.
  4. Graph each of the binomial distributions you obtained in parts a, b, and c. Locate the mean for each distribution on its graph.\
  5. In general, for what values of p will a binomial distribution be symmetric? Skewed to the right? Skewed to the left?

Preventative maintenance tests. The optimal schedulingofpreventative maintenance tests of some (but not all) ofnindependently operating components was developed in Reliability Engineering and System Safety(January2006).The time (in hours) between failures of a component wasapproximated by an exponential distribution with meanθ.

a. Supposeθ=1000 hours. Find the probability that the time between component failures ranges between 1200and1500hours.

b. Again, assumeθ=1000hours. Find the probability that the time between component failures is at least1200hours.

c. Given that the time between failures is at leastrole="math" localid="1658214710824" 1200 hours, what is the probability that the time between failures is less than1500hours?
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