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We are evaluating a project that costs $1.68 million, 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 90,000 units per year. Price per unit is $37.95, variable cost per unit is $23.20, and fixed costs are $815,000 per year. The tax rate is 21 percent, and we require a return of 11 percent on this project. Suppose the projections given for price, quantity, variable costs, and fixed costs are all accurate to within ±10 percent.

Required:
Calculate the best-case and worst-case NPV figures.

Answer :

anthougo

Answer:

                              Best-Case        Worst-Case

                                  NPV                     NPV

PV of cash inflows $2,897,706      $3,187,477

PV of project cost  $1,680,000     $1,848,000 ($1,680,000 * 1.1)

NPV                         $1,217,706    $1,339,477

Explanation:

a) Data and Calculations:

Initial project cost = $1.68 million

Project's estimated life = 6 years

Salvage value = $0

Depreciation expense = $280,000 ($1.68 million/6)

Income Statement:

Sales revenue (90,000 * $37.95) = $3,415,500

Cost of goods sold:

Variable cost (90,000 * $23.20) =    2,088,000

Gross profit =                                    $1,327,500

Fixed costs =                                         815,000

Income before tax =                           $512,500

Income tax (21% of $512,500) =          107,625

Net income =                                     $404,875

Add depreciation expense                280,000

Annual cash inflows =                      $684,875

PV annuity factor for 6 years at 11% = 4.231

PV of annual cash inflows of $684,875= $2,897,706 ($684,875 * 4.231)

Annual cash inflows = $753,363 ($684,875 * 1.1)

PV of annual cash inflows of $753,363 = $3,187,477 ($753,363 * 4.231)

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