Question

In: Statistics and Probability

In a lake, Peter catches fishes in an average rate of 3 fishes per hour. (Assume...

In a lake, Peter catches fishes in an average rate of 3 fishes per hour. (Assume Peter always catches one fish at a time and the events of catching each fish are independent.)

(a) At 2:00PM, if it’s known that Peter caught the previous fish at 1:50PM, what is the probability that he will catch the next fish before 2:30PM?

(b) Assume Peter starts catching fish at 9:00AM, what is the probability that he will catch the 2nd fish between 9:30 and 9:50AM?

Solutions

Expert Solution

Answer:

Given Data

a)  At 2:00PM, if it’s known that Peter caught the previous fish at 1:50PM, what is the probability that he will catch the next fish before 2:30PM.

It is known that Peter hasn't caught a fish from 1:50 PM to 2:00 PM.

The probability that Peter will catch the next fish before 2:30 PM is = The probability that Peter will catch at least one fish before 2:30 PM given that he hasn't caught a fish from 1:50 PM to 2:00 PM.

The probability of catching at least one fish from 1:50 PM to 2:30 PM

= 1 - The probability of catching no fish from 1:50 PM to 2:30 PM

= 2/40 minutes

= 1.5/30 minutes

= 1/20 minutes

= 0.5/10 minutes

  

= 0.865

The probability of catching no fish from 1:50 PM to 2:00 PM is

= 0.606

The required probability that he will catch the next fish before 2.30 PM is

= 0.7012

b) Assume Peter starts catching fish at 9:00AM, what is the probability that he will catch the 2nd fish between 9:30 and 9:50AM

In order to catch the 2nd fish between 9:30 to 9:50AM, Peter should catch exactly 1 fish between 9 to 9:30AM.

The probability of catching exactly 1 fish between 9 to 9:30AM is

= 0.335

The probability of catching at least one fish between 9:30AM and 9:50AM is

= 1 - The probability of catching no fish between 9:30 AM to 9:50 AM

= 0.632

The probability that he will catch the 2nd fish between 9:30AM and 9:50AM is

= 0.335 * 0.632

= 0.212

****Please like it...

It is important to me..

Thank you for supporting me..

orchestra answered 1 year ago
Next > < Previous

Related Solutions

In a lake, Peter catches fishes in an average rate of 3 fishes per hour. (Assume...
In a lake, Peter catches fishes in an average rate of 3 fishes per hour. (Assume Peter always catches one fish at a time and the events of catching each fish are independent.) (a) [10 points] At 2:00PM, if it’s known that Peter caught the previous fish at 1:50PM, what is the probability that he will catch the next fish before 2:30PM? Please show step by step process for arriving at such answer (b) [10 points] Assume Peter starts catching...
In a lake, Peter catches fishes in an average rate of 3 fishes per hour. (Assume...
In a lake, Peter catches fishes in an average rate of 3 fishes per hour. (Assume Peter always catches one fish at a time and the events of catching each fish are independent.) (a) [10 points] At 2:00PM, if it’s known that Peter caught the previous fish at 1:50PM, what is the probability that he will catch the next fish before 2:30PM? (b) [10 points] Assume Peter starts catching fish at 9:00AM, what is the probability that he will catch...
In a lake, Peter catches fishes in an average rate of 3 fishes per hour. (Using...
In a lake, Peter catches fishes in an average rate of 3 fishes per hour. (Using Poisson distribution, assume Peter always catches one fish at a time and the events of catching each fish are independent.) (a) [10 points] At 2:00PM, if it’s known that Peter caught the previous fish at 1:50PM, what is the probability that he will catch the next fish before 2:30PM? (b) [10 points] Assume Peter starts catching fish at 9:00AM, what is the probability that...
Customers arrive at a local ATM at an average rate of 14 per hour. Assume the...
Customers arrive at a local ATM at an average rate of 14 per hour. Assume the time between arrivals follows the exponential probability distribution. Determine the probability that the next customer will arrive in the following time frames. ​a) What is the probability that the next customer will arrive within the next 2 ​minutes? ​b) What is the probability that the next customer will arrive in more than 15 ​minutes? ​c) What is the probability that the next customer will...
Assume that Norman has an average of 4.2 traffic accidents per hour during rush hour periods....
Assume that Norman has an average of 4.2 traffic accidents per hour during rush hour periods. a. What is the probability that there are more than five accidents in a particular hour? b. If there are two hours worth of rush hour periods per day (one hour in the morning, one hour in the afternoon), what is the probability that there are between 45 and 48 accidents in a work week of five days?
Jobs are sent to a printer at an average rate of 6 jobs per hour. (a)...
Jobs are sent to a printer at an average rate of 6 jobs per hour. (a) What is the expected time between jobs? [Note: Give the exact answer either in hours or in minutes.] (b) What is the probability that the next job is sent within 4 minutes? [Note: Round the answer to four decimal places.]
Cars arrive at a parking lot at a rate of 20 per hour. Assume that a...
Cars arrive at a parking lot at a rate of 20 per hour. Assume that a Poisson process model is appropriate. Answer the following questions. No derivations are needed but justification of your answers are necessary. What assumptions are necessary to model the arrival of cars as a Poisson process? What is the expected number of cars that arrive between 10:00 a.m and 11:45 a. m? Suppose you walk into the parking lot at 10:15 a.m.; how long, on average,...
Suppose that customers arrive at a bank at a rate of 10 per hour. Assume that...
Suppose that customers arrive at a bank at a rate of 10 per hour. Assume that the number of customer arrivals X follows a Poisson distribution. A. Find the probability of more than 25 people arriving within the next two hours using the Poisson mass function. B. Find the probability of more than 25 people arriving within the next two hours using the normal approximation to the Poisson. C. Compute the percent relative difference between the exact probability computed in...
In a barber, the rate for the number of customers is 3 per hour. On average, the barber can serve customers at a rate of one every 15 minutes.
  In a barber, the rate for the number of customers is 3 per hour. On average, the barber can serve customers at a rate of one every 15 minutes.A)  Find an average number of the customers in the barber (system) and queue?B)   Find average waiting time in the barber and queue?C)   What is the probability that the barber be empty?D)   What is the probability that exactly 2 customers present in the system? C)  with which probability that the number of...
Customers enter the camera department of a store at an average rate of five per hour....
Customers enter the camera department of a store at an average rate of five per hour. The department is staffed by one employee, who takes an average of 8.0 minutes to serve each arrival. Assume this is a simple Poisson arrival, exponentially distributed service time situation. (Use the Excel spreadsheet Queue Models.) a-1. As a casual observer, how many people would you expect to see in the camera department (excluding the clerk)? (Round your answer to 2 decimal places.) a-2....
ADVERTISEMENT
Subjects
ADVERTISEMENT
Latest Questions
ADVERTISEMENT