(1) In a 2 state system, an unreliable machine has a 10% chance of breaking down...

Your investment has a a 10% chance of losing 3%, a 50% chance of earning a...

Your investment has a a 10% chance of losing 3%, a 50% chance of earning a 10% rate of return, and 40% chance of earning a 15% rate of return. What is the standard deviation of this investment? Remember to state your answer as a percentage. For example, 99.99%.

The computer center at Rockbottom University has been experiencing computer downtime. Let us assume that the...

The computer center at Rockbottom University has been experiencing computer downtime. Let us assume that the trials of an associated Markov process are defined as one-hour periods and that the probability of the system being in a running state or a down state is based on the state of the system in the previous period. Historical data show the following transition probabilities: To From Running Down Running 0.80 0.20 Down 0.30 0.70 a. the system is initially running, what is...

Problem 16-03 (Algorithmic) The computer center at Rockbottom University has been experiencing computer downtime. Let us...

Problem 16-03 (Algorithmic) The computer center at Rockbottom University has been experiencing computer downtime. Let us assume that the trials of an associated Markov process are defined as one-hour periods and that the probability of the system being in a running state or a down state is based on the state of the system in the previous period. Historical data show the following transition probabilities: To From Running Down Running 0.80 0.20 Down 0.30 0.70 If the system is initially...

The computer center at Rockbottom University has been experiencing computer downtime. Let us assume that the...

The computer center at Rockbottom University has been experiencing computer downtime. Let us assume that the trials of an associated Markov process are defined as one-hour periods and that the probability of the system being in a running state or a down state is based on the state of the system in the previous period. Historical data show the following transition probabilities: To From Running Down Running 0.70 0.30 Down 0.20 0.80 If the system is initially running, what is...

Consider the following 4-stage production system that makes an industrial-type product named, Cosmos. The processing time...

Consider the following 4-stage production system that makes an industrial-type product named, Cosmos. The processing time for each of these stages are shown in minutes.           2.5 minutes                  10 minutes                       15 minutes                        4 minutes      Station A    Station B     Station C Station D How many units of Cosmos can this system make in 1 hour, under steady state conditions? Assume that the company runs 2 production shifts each day from Monday to Saturday: One shift is from 7:00 am...

The length of a time a system is"down" (ie broken) is described approximately by the probability...

The length of a time a system is"down" (ie broken) is described approximately by the probability distribution (see table) Assume that these downtimes are exact. That is , there are three types of easily recognized problems that always take this long (5, 30 or 120 minutes) to fix. a. What kind of probability distribution does this table represent? b. Find the mean downtime. c. Find the standard deviation of the downtime. d. What is the probability that the downtime will...

Productivity concepts. Answer the following questions. Suppose 2 people and 1 sewing machine will produce 10...

Productivity concepts. Answer the following questions. Suppose 2 people and 1 sewing machine will produce 10 t-shirts per day. Also, suppose 3 people and 1 machine will produce 12 t-shirts per day and 4 people and 1 machine will produce 13 t-shirts per day. Suppose 2 people and 2 machines can produce 18 t-shirts per day. With constant returns to scale, what will 4 people and 2 machine produce per day? What is average labor productivity and marginal labor productivity...

#1 Suppose a random variable X follows a uniform distribution with minimum 10 and maximum 50....

#1 Suppose a random variable X follows a uniform distribution with minimum 10 and maximum 50. What is the probability that X takes a value greater than 35? Please enter your answer rounded to 4 decimal places. #2 Suppose X follows an exponential distribution with rate parameter 1/10. What is the probability that X takes a value less than 8? Please enter your answer rounded to 4 decimal places. #3 Suppose the amount of time a repair agent requires to...

Consider an M / M / 1 queueing system with capacity N = 2. Suppose that...

Consider an M / M / 1 queueing system with capacity N = 2. Suppose that customers arrive at the rate of λ per hour and are served at the rate of 8 per hour. a. What should the arrival rate be so that an arriving potential customer has a 50% chance of joining the queue? b. With λ chosen to satisfy the requirement of part a, what percentage of the customers who actually enter the system get served immediately?

The State Police are trying to crack down on speeding on a particular portion of the...

The State Police are trying to crack down on speeding on a particular portion of the Massachusetts Turnpike. To aid in this pursuit, they have purchased a new radar gun that promises greater consistency and reliability. Specifically, the gun advertises ± one-mile-per-hour accuracy 85% of the time; that is, there is a 0.85 probability that the gun will detect a speeder, if the driver is actually speeding. Assume there is a 2% chance that the gun erroneously detects a speeder...