I believe it's A because it makes sense to me ig
Answer:
Provided in Explanation
Explanation:
This is a very general question however I’ll try to answer it to the best of my knowledge.
If I use my own assumptions then these will be the Projections:
Selling Price $79.99 Selling Price $69.99
Cost of Sales/unit $40.00 Cost of Sales/unit $40.00
Expenses/unit $15.00 Expenses/unit $15.00
Demand @ $79.99 1000 Demand @ $69.99 1200
Sales $79,990.00 Sales $83,988.00
Cost of Sales $40,000.00 Cost of Sales $48,000.00
Expenses $15,000.00 Expenses $18,000.00
Profit $24,990.00 Profit $17,988.00
The final decision however relies on the Price Elasticity of the Product. If the Product is Price elastic then lowering the Price will lead to a significant rise in Demand. However if the Product is Price inelastic then lowering the Price will not lead to a significant rise in Demand and thus profit margins will be lowered. If the Product is Price inelastic then it is better to increase prices in order to gain more profits. In the case of Unit Elasticity the change in Demand will be at the same proportion as price change so it won’t be of any use to change the Price.
Answer:
$2,777
Explanation:
For computing the annual ordering cost, first we have to determine the economic order quantity which is shown below:
= 46 units
The carrying cost is
= $675 × 18%
= $121.50
Now the annual ordering cost is
= Annual demand ÷ Economic order quantity × ordering cost per order
= 1,750 ÷ 46 × $73
= $2,777
Hence, the annual ordering cost is $2,777
Answer: 9.7%
Explanation:
Given Data
Rf = Risk free return = 6%,
Rpm = Risk premium = 4%,
Beta = 0.9
Wd = Debt = 20%
rd = cost of debt = 8%
We = equity = 80%
Re = Rf + Beta (Rpm)
= 0.06 +0.9 (0.04)
= 0.096 * 100
= 9.6%
Unlevered Equity Cost ;
ReU= Wd × rd + We × re
= 0.20 × 8% + 0.80 × 9.6%
= 9.28%
Levered Equity Cost:
New Debt = 60%,
New Equity = 40%,
New rd = 9%
ReL = ReU + (ReU - rd) (D ÷ E)
= 9.28% + (9.28% - 9%) (0.60 ÷ 0.40)
= 0.097 * 100
= 9.7%