What is the variance of a project that has a best case estimate of 36, most...

A project's base case or most likely NPV is $44,000, and assume its probability of occurrence...

A project's base case or most likely NPV is $44,000, and assume its probability of occurrence is 50%. Assume the best case scenario NPV is 85% higher than the base case and assume the worst scenario NPV is 35% lower than the base case. Both the best case scenario and the worst case scenario have a 25% probability of occurrence. Find the project's coefficient of variation.

What is the best point estimate for the population's variance if the sample variance is 38.4?...

What is the best point estimate for the population's variance if the sample variance is 38.4? Round your answer to one decimal place, if necessary.

A project activity has an optimistic time estimate of three days, a most likely time estimate...

A project activity has an optimistic time estimate of three days, a most likely time estimate of eight days, and a pessimistic time estimate of 10 days. The expected time (in days) of this activity is: 7 7.5 8 8.5 10

A project's base case or most likely NPV is $50,000, and assume its probability of occurrence...

A project's base case or most likely NPV is $50,000, and assume its probability of occurrence is 60%. Assume the best case scenario NPV is 50% higher than the base case and assume the worst scenario NPV is 30% lower than the base case. Both the best case scenario and the worst case scenario have a 20% probability of occurrence. Find the project's coefficient of variation. Enter your answer rounded to two decimal places. For example, if your answer is...

A project's base case or most likely NPV is $50,000, and assume its probability of occurrence...

A project's base case or most likely NPV is $50,000, and assume its probability of occurrence is 60%. Assume the best case scenario NPV is 70% higher than the base case and assume the worst scenario NPV is 30% lower than the base case. Both the best case scenario and the worst case scenario have a 20% probability of occurrence. Find the project's coefficient of variation. Enter your answer rounded to two decimal places. For example, if your answer is...

The most likely outcomes for a particular project are estimated as follows: Unit price: $ 70...

The most likely outcomes for a particular project are estimated as follows: Unit price: $ 70 Variable cost: $ 50 Fixed cost: $ 200,000 Expected sales: 35,000 units per year However, you recognize that some of these estimates are subject to error. Suppose that each variable may turn out to be either 10% higher or 10% lower than the initial estimate. The project will last for 10 years and requires an initial investment of $1.2 million, which will be depreciated...

The most likely outcomes for a particular project are estimated as follows: Unit price: $ 50...

The most likely outcomes for a particular project are estimated as follows: Unit price: $ 50 Variable cost: $ 30 Fixed cost: $ 410,000 Expected sales: 40,000 units per year However, you recognize that some of these estimates are subject to error. Suppose that each variable may turn out to be either 10% higher or 10% lower than the initial estimate. The project will last for 10 years and requires an initial investment of $1.4 million, which will be depreciated...

The most likely outcomes for a particular project are estimated as follows: Unit price: $ 60...

The most likely outcomes for a particular project are estimated as follows: Unit price: $ 60 Variable cost: $ 40 Fixed cost: $ 420,000 Expected sales: 47,000 units per year However, you recognize that some of these estimates are subject to error. Suppose that each variable may turn out to be either 10% higher or 10% lower than the initial estimate. The project will last for 10 years and requires an initial investment of $2.1 million, which will be depreciated...

The most likely outcomes for a particular project are estimated as follows: Unit price: $ 80...

The most likely outcomes for a particular project are estimated as follows: Unit price: $ 80 Variable cost: $ 60 Fixed cost: $ 280,000 Expected sales: 30,000 units per year However, you recognize that some of these estimates are subject to error. Suppose that each variable may turn out to be either 5% higher or 5% lower than the initial estimate. The project will last for 10 years and requires an initial investment of $1.0 million, which will be depreciated...

We are evaluating a project that costs $732,000, has a six-year life, and has no salvage...

We are evaluating a project that costs $732,000, has a six-year life, and has no salvage value. Assume that depreciation is straight-line to zero over the life of the project. Sales are projected at 55,000 units per year. Price per unit is $60, variable cost per unit is $30, and fixed costs are $640,000 per year. The tax rate is 35 percent, and we require a return of 12 percent on this project. Suppose the projections given for price, quantity,...