Answer:
Explanation:
In order to find the highest amount david can pay or in other words the present value of the investment we would have to discount the cash flows
3000/1.08+3000/1.08^2+3000/1.08^3+3000/1.08^4+3000/1.08^5=11,978
Answer:
Midpoint value of price elasticity of demand = -2.07
Explanation:
We know,
Midpoint value of price elasticity = ![\frac{(Q_{2} - Q_{1})/[(Q_{2} + Q_{1})/2] }{(P_{2} - P_{1})/[(P_{2} + P_{1})/2] }](https://tex.z-dn.net/?f=%5Cfrac%7B%28Q_%7B2%7D%20-%20Q_%7B1%7D%29%2F%5B%28Q_%7B2%7D%20%2B%20Q_%7B1%7D%29%2F2%5D%20%7D%7B%28P_%7B2%7D%20-%20P_%7B1%7D%29%2F%5B%28P_%7B2%7D%20%2B%20P_%7B1%7D%29%2F2%5D%20%7D)
Given,
Original Price,
= $15
New Price,
= $12
Original Quantity demanded,
= 1,000 units
New Quantity demanded,
= 1,600 units
Putting the value in the above midpoint formula, we can get
Midpoint value of price elasticity = ![\frac{(1,600 - 1,000)/[(1,600 + 1,000)/2]}{(12-15)/[(12+15)/2]}](https://tex.z-dn.net/?f=%5Cfrac%7B%281%2C600%20-%201%2C000%29%2F%5B%281%2C600%20%2B%201%2C000%29%2F2%5D%7D%7B%2812-15%29%2F%5B%2812%2B15%29%2F2%5D%7D)
Midpoint value of price elasticity = 
Midpoint value of price elasticity = 
Midpoint value of price elasticity of demand = -2.07
Answer:
The answer is 30%
Explanation:
Solution
Given that:
Project A
Project A costs = $350
Cash flows =$250 and $250 (next 2 years)
Project B
Project B costs =$300
Cash flow = $300 and $100
Now what is the crossover rate for these projects.
Thus
Year Project A Project B A-B B-A
0 -350 -300 -50 50
1 250 300 -50 50
2 250 100 150 -150
IRR 27% 26% 30% 30%
So,
CF = CF1/(1+r)^1 + CF2/(1+r)^2
$-50 = $-50/(1+r)^1 + $150/(1+r)^2
r = 30%
CF = CF1/(1+r)^1 + CF2/(1+r)^2
$50 = $50/(1+r)^1 + $-150/(1+r)^2
r = 30%
Hence, the cross over rate for these project is 30%
Note:
IRR =Internal rate of return
CF =Cash flow
r = rate
Answer:
What do you mean what yousnap
Explanation:
Answer:
$4,900
Explanation:
Given that,
Total cost at a production level of 400 units = $8,500
Each unit of pulp requires = 6 direct labor hours
Variable cost = $1.50 per direct labor hour
Total variable cost:
= Cost per direct labor hour × Direct labor hours required for each unit × No. of units produced
= $1.50 × 6 × 400
= $3,600
Total cost is sum total of total fixed cost and total variable cost.
Total cost = Total fixed cost + Total variable cost
$8,500 = Total fixed cost + $3,600
$8,500 - $3,600 = Total fixed cost
$4,900 = Total fixed cost