The average number of cars per hour arriving at a toll booth is 57 while the standard deviation is 15.
(a) Use Markov’s inequality to find an upper bound on the probability of having more than 200 cars arrive in an hour.
(b) Use Chebyshev’s inequality to find an upper bound on the probability of having more than 200 cars arrive in an hour


The average number of cars per hour arriving at a toll booth is 57 while the...
Cars arrive at a toll booth at average rate of 60 per hour. The standard deviation of the time between arrivals is 0.8 minutes. What is the coefficient of variation of the interarrival times of cars?
The number of cars arriving at a toll booth in five-minute intervals is Poisson distributed with a mean of 3 cars arriving in five-minute time intervals. The probability of 5 cars arriving over a five-minute interval is __________ . Group of answer choices 0.0940 0.0417 0.1500 0.1008 0.2890
The number of cars arriving at a toll booth in five-minute intervals is Poisson distributed with a mean of 3 cars arriving in five-minute time intervals. The probability of 3 cars arriving over a ten-minute interval is _________ . Group of answer choices 0.3528 0.6472 0.0892 0.2240 0.9108
Vehicles have been arriving at a toll bridge at an average rate of 216 an hour. Only one toll booth is currently open and can process arrivals (collect tolls) at a mean rate of 20 seconds per vehicle. a. How many vehicles should be expected at the toll bridge in a 10-minute period? Please show how you arrived at your answer. b. Define X to be the number of vehicles arriving at the toll bridge in a 10-minute period and...
An average of 90 cars per hour arrive at a single-server toll booth. The average service time for each customer is a half minute, and both interarrival times and service times are exponential. For each of the following questions, show your work, including the formula that you are using. 1) On average, how many cars per hour will be served by the server
Assume the average number of cars arriving at a certain freeway entrance ramp during an hour is 5. What is the probability that in a given hour no cars will arrive at the ramp? a. What is the probability that exactly 5 cars will arrive in an hour. b. What is the probability that more than 5 cars will arrive in an hour?
7.1. Cars arrive to a toll booth 24 hours per day according to a Poisson process with a mean rate of 15 per hour. (a) What is the expected number of cars that will arrive to the booth between 1:00 p.m. and 1:30 p.m.? (b) What is the expected length of time between two consecutively arriving cars! (c) It is now 1:12 p.m. and a car has just arrived. What is the expected number of cars that will arrive between...
1) A toll plaza has 5 booths, with each booth capable of servicing 50 cars per hour. Cars arrive at the plaza at the rate of 225 cars per hour. Make the standard assumptions of a Poisson distribution for arrivals, and an Exponential distribution for service times, and calculate the following: a) What is the probability of zero cars in the toll plaza? b) What is the average length (in cars) of the (total) queue?
2. The number of cars passing through each lane of a toll booth per minute is represented by a random variable, C, and the number of trucks passing through it is represented by another random variable, T. During the morning peak hour, the joint probability mass function of C and T is given by the following table 0 0.05 0.08 0.08 1 0.05 0.09 0.11 0.08 0.22 0.11 0.06 0.05 0.02 Find the marginal probability mass function of T, pr(t)...
3.25. Suppose45%ofthecarsontheroadaredomesticbrandsand55%areforeign brands. Let N.t/ be the number of cars crossing at a given toll booth during .0;t?. Suppose fN.t/;t ? 0g is a PP with rate 40 per minute. (1)What is the probability that four foreign cars and five domestic cars cross the intersection during a 10-second interval? (2)In Computational Problem 3.25, suppose 30 foreign cars have crossed the toll booth during a 1-minute interval. What is the expected number of domestic cars that cross the intersection during this...