The net present value of the proposed project is closest to -$80,822.
Since the project saves $80,000 in costs each year, we treat these savings income for the next 4 years. We then calculate the Present value Interest Factor of an annuity using the formula :
PVIF of an annuity = { [ 1 - [ (1+r)⁻ⁿ ] } ÷ r
PVIF of an annuity = { [ 1 - [ (1.09)⁻⁴ ] } ÷ 0.09
PVIF of an annuity = 3.240 (rounded to three decimals)
PV of the cost savings = (3.240*80000) = $2,59,178 (rounded to nearest $)
NPV = PV of cost savings - Value of investment
NPV = 2,59,178
- 3,40,000
What poster are you referring to? There’s nothing there but the question
True because coffee and other drinks can last up to hours of energy
Answer: $121
Explanation:
The question simply wants us to find the present value of receiving $100 investment two years from now at a 10 percent annual discount rate.
This can be easily solved as follows:
For the first year, the $100 will be worth:
= $100 + ($100 × 10%)
= $100 + ($100 × 0.1)
= $100 + $10
= $110
The worth at the end of the second year will then be:
= $110 + ($110 × 10%)
= $110 + $11
= $121
Answer:
22.22%
Explanation:
Currently Rainbow's stocks are priced at $36 per stock.
If the holder can convert his $1,100 bond into 25 stocks, that means that each stock should be worth at least $44 (= $1,100 / 25).
So the current stock price should increase by $8 (= $44 - $36) in order for a trade to be attractive, $8 represents a 22.22% increase (= ($8 / $36) x 100)
