ZuoTi.Pro
Question

The time of travel from a person's apartment to the bus station follows a uniform distribution...

The time of travel from a person's apartment to the bus station follows a uniform distribution over the interval from 20 to 30 minutes. If he/she leaves home at 9:05 AM, what is the probability that he/she will get to the station between 9:20 and 9:25 AM?

0.75

1.0

0

0.25

0.5

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

Solution-

According to question, the time of travel from a person's apartment to the bus station follows a uniform distribution over the interval from 20 to 30 minutes.

If means a = 20 minutes and b = 30 minutes.

So, Probability density function for this uniform distribution is

f(X) = 1/(b- a) = 1/(30 -20) = 1/10 =0.10

So, Pdf is

f(X) = 0.10 ; X belongs to [20 , 30]

= 0 ; Otherwise

Now, If someone leaves home at 9:05 AM then the probability that he/she will get to the station between 9:20 and 9:25 AM is

= P[ She reaches between 15 minutes (9:05 AM to 9:20 AM )and 20 minutes (9:05 AM to 9:25 AM) ]

= P (15 < X < 20)

= (15-20)×f(X)

= 5×0 = 0

(Because 15 to 20 minutes is not lies in the given internal over which uniform density function is defined).

0 0
Add a comment
Know the answer?
Add Answer to:
The time of travel from a person's apartment to the bus station follows a uniform distribution...
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

  • The time (in minutes) until the next bus departs a major bus depot follows a uniform...

    The time (in minutes) until the next bus departs a major bus depot follows a uniform distribution from 20 to 41 minutes. Let X denote the time until the next bus departs. (3%) The distribution is and is . (3%) The density function for X is given by f(x)=    , with    ≤X≤ . (3%) The mean of the distribution is μ=    . (3%) The standard deviation of the distribution is σ=    . (3%) The probability that...

  • A bus comes by every 14 minutes. The times from when a person arives at the...

    A bus comes by every 14 minutes. The times from when a person arives at the busstop until the bus arrives follows a Uniform distribution from 0 to 14 minutes. A person arrives at the bus stop at a randomly selected time. Round to 4 decimal places where possible. c. The probability that the person will wait more than 4 minutes is _____ d. Suppose that the person has already been waiting for 0.5 minutes. Find the probability that the...

  • Problem 8 The time (in minutes) until the next bus departs a major bus depot follows...

    Problem 8 The time (in minutes) until the next bus departs a major bus depot follows a uniform distribution from 30 to 48 minutes. Let X denote the time until the next bus departs. a. The distribution is Uniform and is continuous b. The mean of the distribution is u = 39 c. The standard deviation of the distribution is 0 = d. The probability that the time until the next bus departs is between 30 and 40 minutes is...

  • A professor commutes daily from her suburban home to her campus office. The average time for...

    A professor commutes daily from her suburban home to her campus office. The average time for a one-way trip is 20 minutes, with a standard deviation of 5 minutes. Assume the distribution of trip times to be normally distributed. If she leaves the house at 9:00 am and coffee is served at the office from 9:10 am until 9:20 am, what is the probability that she arrives to the office after coffee has finished being served?

  • A bus comes by every 15 minutes. The times from when a person arives at the...

    A bus comes by every 15 minutes. The times from when a person arives at the busstop until the bus arrives follows a Uniform distribution from 0 to 15 minutes. A person arrives at the bus stop at a randomly selected time. Round to 4 decimal places where possible. a. The mean of this distribution is b. The standard deviation is c. The probability that the person will wait more than 5 minutes is d. Suppose that the person has...

  • A bus comes by every 13 minutes. The times from when a person arives at the...

    A bus comes by every 13 minutes. The times from when a person arives at the busstop until the bus arrives follows a Uniform distribution from 0 to 13 minutes. A person arrives at the bus stop at a randomly selected time. Round to 4 decimal places where possible. a. The mean of this distribution is b. The standard deviation is ? c. The probability that the person will wait more than 7 minutes is ? d. Suppose that the...

  • The time it takes me to drive to my favorite store follows a uniform distribution of...

    The time it takes me to drive to my favorite store follows a uniform distribution of 20 to 30 minutes. What is the probability (decimal) that it takes me 28 minutes or less?

  • Can someone explain all these questions? B5. In order to go to university a student needs to catch a train at 8:41a.m. every morning. Cycling to the station from home takes the student on average 14 m...

    Can someone explain all these questions? B5. In order to go to university a student needs to catch a train at 8:41a.m. every morning. Cycling to the station from home takes the student on average 14 minutes, with a standard deviation of 3 minutes. You can assume that the distribution of trip times is normally distributed and independent between days i) What is the probability that the student's cycle ride to the station will take more than 21 4 marks...

  • 1) A Civil engineer commutes daily from his suburban home to his midtown office. The average...

    1) A Civil engineer commutes daily from his suburban home to his midtown office. The average time for a one-way trip is 25 minutes, with a standard deviation of 4.2 minutes. Assume the distribution of trip times to be normally distributed. a) What is the probability that a trip will take at least 35 minutes? (0.5 points) b) If the office opens at 9:00 A.M. and the engineer leaves his house at 8:40 A.M. daily, what percentage of the time...

  • l th steps from Q076 Uniform Probability Distribution see notes amount of time, in minutes, that...

    l th steps from Q076 Uniform Probability Distribution see notes amount of time, in minutes, that a person must wait for a bus is uniformly distributed between zero and The 29 minutes, inclusive a. Draw the graph. (4 points) P(. 0 3448 29 24 b. Find the waiting time that corresponds to the 8o'h percentile value. This is the waiting that a person will have to wait 80th of the time. 5 points K-80% * 2.9 K-0.80メ24 will Wa +...

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