ZuoTi.Pro
Question

A telephone company’s goal is to have no more than five monthly line failures on any...

A telephone company’s goal is to have no more than five monthly line failures on any 100 miles of line. The company currently experiences an average of two monthly line failures per 50 miles of line. Let x denote the number of monthly line failures per 100 miles of line. Assuming x has a Poisson distribution: a. Find the probability that the company will meet its goal on a particular 100 miles of line. b. Find the probability that the company will not meet its goal on a particular 100 miles of line. c. Find the probability that the company will have no more than five monthly failures on a particular 200 miles of line. d. Find the probability that the company will have more than 12 monthly failures on a particular 150 miles of line. Using Excel and this formula: Number, Average or Mean, Cum?, =POISSON.DIST

math   Statistics-And-Probability   
0 0
Add a comment Improve this question Transcribed image text
Next > < Previous
Sort answers by oldest

Homework Answers

Answer #1

eu -4too milos o liNa PosionO-7851 oilu alusel peð bo miej on a paticdag.loomVMtha morth Covrplry 내 hve no.nose tuan file kailunoon a poticulon onogoo wile 0030.1Tho proba bility tho tha Compowy eoill hoe ailusesex mile cail bo Sx Pois siow disti bation oltn pes co mile1Q O X t6 2 12 i o.qqis o.0088 MOW

0 0
Add a comment
Know the answer?
Add Answer to:
A telephone company’s goal is to have no more than five monthly line failures on any...
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Log In

Sign Up

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions

  • A telephone company's goal is to have no more than five monthly line failures on any...

    A telephone company's goal is to have no more than five monthly line failures on any 100 miles of line. The company currently experiences an average of 4 monthly line failures per 50 miles of line. Let x denote the number of monthly line failures per 100 miles of line. Assuming x has a Poisson distribution: (a) Find the probability that the company will meet its goal on a particular 100 miles of line. (b) Find the probability that the...

  • A telephone company's goal is to have no more than 6 monthly line failures on any...

    A telephone company's goal is to have no more than 6 monthly line failures on any 100 miles of line. The company currently experiences an average of 2 monthly line failures per 50 miles of line. Let x denote the number of monthly line failures per 100 miles of line. Assuming x has a Poisson distribution: (a) Find the probability that the company will meet its goal on a particular 100 miles of line. (Do not round intermediate calculations. Round...

  • A telephone company's goal is to have no more than 4 monthly line failures on any...

    A telephone company's goal is to have no more than 4 monthly line failures on any 100 miles of line. The company currently experiences an average of 4 monthly line failures per 50 miles of line. Let x denote the number of monthly line failures per 100 miles of line. Assuming x has a Poisson distribution: (a) Find the probability that the company will meet its goal on a particular 100 miles of line. (Do not round intermediate calculations. Round...

  • A telephone company's goal is to have no more than 4 monthly line failures on any 100 miles of line

    A telephone company's goal is to have no more than 4 monthly line failures on any 100 miles of line. The company currently experiences an average of 5 monthly line failures per 50 miles of line. Let x denote the number of monthly line failures per 100 miles of line. Assuming x has a Poisson distribution: (a) Find the probability that the company will meet its goal on a particular 100 miles of line. (Do not round intermediate calculations. Round...

  • A telephone company's goal is to have no more than 3 monthly line failures on any...

    A telephone company's goal is to have no more than 3 monthly line failures on any 100 miles of line. The company currently experiences an average of 5 monthly line failures per 50 miles of line. Let x denote the number of monthly line failures per 100 miles of line. Assuming x has a Poisson distribution: (d) Find the probability that the company will have more than 12 monthly failures on a particular 150 miles of line. (Do not round...

  • A telephone company's goal is to have no more than 4 monthly line failures on any 100 miles of line

    A telephone company's goal is to have no more than 4 monthly line failures on any 100 miles of line. The company currently experiences an average of 5 monthly line failures per 50 miles of line. Let x denote the number of monthly line failures per 100 miles of line. Assuming x has a Poisson distribution:

  • A retail store has implemented procedures aimed at reducing the number of bad checks cashed by...

    A retail store has implemented procedures aimed at reducing the number of bad checks cashed by its cashiers. The store's goal is to cash no more than eight bad checks per week. The average number of bad checks cashed is 19 per week. Let x denote the number of bad checks cashed per week. Assuming that x has a Poisson distribution: (a) Find the probability that the store's cashiers will not cash any bad checks in a particular week. (Round...

  • A retail store has implemented procedures aimed at reducing the number of bad checks cashed by...

    A retail store has implemented procedures aimed at reducing the number of bad checks cashed by its cashiers. The store's goal is to cash no more than eight bad checks per week. The average number of bad checks cashed is 11 per week. Let x denote the number of bad checks cashed per week. Assuming that x has a Poisson distribution: Find the probability that the store's cashiers will cash no more than five bad checks per three-week period. (Round...

  • If the number of calls received per hour by a telephone answering service is a Poisson random variable with parameter A 6, what is the probability of waiting more than 15 minutes between any two succ...

    If the number of calls received per hour by a telephone answering service is a Poisson random variable with parameter A 6, what is the probability of waiting more than 15 minutes between any two successive calls? Select one: O a. 0 O b. 1 O C. 8.1940e-40 O d. 0.167 Check If the number of calls received per hour by a telephone answering service is a Poisson random variable with parameter A 6, what is the probability of waiting...

  • 0.00 points A lelephone companys go is 10 have no more i an 4 men i...

    0.00 points A lelephone companys go is 10 have no more i an 4 men i re la ures on any 10 mi es ๙ ine. The compar o me ir e e er ces an average o 6 monui i e aiures per 0 miles o ne Let x de 0 e lhe n moer o mon í a) Find the probabllty thar the company wil moet its goal on a particular 100 miles of Inc (Do not round...

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT