Probability and Statistics for Engineering and the Sciences STAT 400 - University Of Maryland
Probability and Statistics for Engineering and the Sciences STAT 400 - University Of Maryland
9th Edition
ISBN: 9781305764477
Author: Jay L. Devore
Publisher: Cengage Learning
Question
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Chapter 7, Problem 59SE

a.

To determine

Show that P((α2)1n<Yθ<(1α2)1n)=1α.

Derive the 100(1α)% confidence interval for θ based on given probability statement.

a.

Expert Solution
Check Mark

Answer to Problem 59SE

It is verified that P((α2)1n<Yθ<(1α2)1n)=1α

The 100(1α)% confidence interval for θ based on given probability statement is CI=(max(Xi)(1α2)1n,max(Xi)(α2)1n)_.

Explanation of Solution

Given info:

A random sample X1,X2,...,Xn is from a uniform distribution on the interval [0,θ] and the probability density function of the random variable U=Yθ=max(Xi)θ is,

fU(u)={nun1,0u10,otherwise.

Calculation:

Let X1,X2,...,Xn be a random sample from a uniform distribution on the interval [0,θ].

The probability density function of the random variable U=Yθ=max(Xi)θ is,

fU(u)={nun1,0u10,otherwise

Probability value:

P((α2)1n<Yθ<(1α2)1n)=P((α2)1n<U<(1α2)1n)=(α2)1n(1α2)1nfU(u)du=(α2)1n(1α2)1n(nun1)du=n×(α2)1n(1α2)1nun1du

=n×(α2)1n(1α2)1nun1du=n×[un1+1n1+1](α2)1n(1α2)1n=[un](α2)1n(1α2)1n=((1α2)1n)n((α2)1n)n

=1α2α2=1α

Therefore, it is verified that P((α2)1n<Yθ<(1α2)1n)=1α.

Confidence interval based on given probability statement:

The confidence interval for θ is,

P((α2)1n<Yθ<(1α2)1n)=1αP((α2)1nY<1θ<(1α2)1nY)=1αP((α2)1nmax(Xi)<1θ<(1α2)1nmax(Xi))=1αP(max(Xi)(1α2)1n<θ<max(Xi)(α2)1n)=1α

Thus, the 100(1α)% confidence interval for θ based on given probability statement is CI=(max(Xi)(1α2)1n,max(Xi)(α2)1n)_.

b.

To determine

Show that P(α1n<Yθ<1)=1α.

Derive the 100(1α)% confidence interval for θ based on given probability statement.

b.

Expert Solution
Check Mark

Answer to Problem 59SE

It is verified that P(α1n<Yθ<1)=1α

The 100(1α)% confidence interval for θ based on given probability statement is CI=(max(Xi),max(Xi)α1n)_.

Explanation of Solution

Calculation:

Let X1,X2,...,Xn be a random sample from a uniform distribution on the interval [0,θ].

The probability density function of the random variable U=Yθ=max(Xi)θ is,

fU(u)={nun1,0u10,otherwise

Probability value:

P(α1n<Yθ<1)=1α=P(α1n<U<1)=α1n1fU(u)du=α1n1(nun1)du=n×α1n1un1du

                       =n×α1n1un1du=n×[un1+1n1+1]α1n1=[un]α1n1=(1)n(α1n)n

                       =1α

Therefore, it is verified that P(α1n<Yθ<1)=1α.

Confidence interval:

The confidence interval for θ is,

P(α1n<Yθ<1)=1αP(α1nY<1θ<1Y)=1αP(α1nmax(Xi)<1θ<1max(Xi))=1αP(max(Xi)<θ<max(Xi)α1n)=1α

Thus, the 100(1α)% confidence interval for θ is CI=(max(Xi),max(Xi)α1n)_.

c.

To determine

Find the shorter interval among the obtained two intervals.

Find the 95% confidence interval for θ using the shorter interval among the obtained two intervals.

c.

Expert Solution
Check Mark

Answer to Problem 59SE

The confidence interval obtained in part (b) is shorter than the interval obtained in part (a).

The 95% confidence interval for θ using the shorter interval is (4.2,7.65)_.

Explanation of Solution

Given info:

The data represents the sample of 5 waiting times of a morning bus. The variable waiting time for a morning bus is uniformly distributed.

Calculation:

The confidence interval for θ obtained in part (a) is CI=(max(Xi)(1α2)1n,max(Xi)(α2)1n)

Width of the confidence interval obtained in part (b):

Width1=max(Xi)(α2)1nmax(Xi)(1α2)1n=max(Xi)(1(α2)1n1(1α2)1n)==max(Xi)((1α2)1n(α2)1n(α2)1n×(1α2)1n)

The confidence interval for θ obtained in part (b) is CI=(max(Xi),max(Xi)α1n)

Width of the confidence interval obtained in part (b):

Width2=max(Xi)α1nmax(Xi)=max(Xi)(1α1n1)

Here, the value of α will be always between 0 and 1.

That is, 0<α<1.

And the sample size n will be always greater than 1.

That is, n>1.

From this it can be said that, ((1α2)1n(α2)1n(α2)1n×(1α2)1n) will be greater than (1α1n1).

Therefore, the width of the interval in part (b) will be narrower than the width of the interval in part (a).

Thus, the shorter confidence interval for θ is CI=(max(Xi),max(Xi)α1n).

95% confidence interval:

For 95% confidence level,

1α=0.95α=0.05

Thus, the level of significance is α=0.05.

The maximum waiting time for a sample of 5 waiting times is max(Xi)=4.2.

The 95% confidence interval for θ is,

CI=(max(Xi),max(Xi)α1n)=(4.2,4.20.0515)=(4.2,4.20.050.2)=(4.2,7.65)

Thus, the 95% confidence interval for θ is (4.2,7.65)_.

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Chapter 7 Solutions

Probability and Statistics for Engineering and the Sciences STAT 400 - University Of Maryland

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