Answer:
26762.74
Explanation:
Prior service cost amortization for 2020 can be calculated by first calculating the average time until the employee's retirement. After calculating the average time until retirement we will divide the service cost at that time
Workings
average time until retirment = 1880/330
average time until retirment = 5.69 years
prior service cost amortization for 2020 = $152,280/5.69
prior service cost amortization for 2020 = $26762.74
Answer:
$366,287.15
Explanation:
Annual salary = $32000
No. of years (n) = 30 years
Increment in salary = $600
Deposit rate = 10%
Interest rate (r) = 7% or 0.07
Growth rate (g) = Increment in salary \div annual salary
Growth rate = $600 \ $32000
Growth rate = 0.01875
First deposit = $32000 x 10% = $3200
Future worth = [First deposit \ (r - g)] x [(1 + r)n - (1 + g)n]
Future worth = [$3200 \ (0.07 - 0.01875)] x [(1 + 0.07)30 - (1 + 0.01875)30]
Future worth = [$3200 \ 0.05125] x [(1.07)30 - (1.01875)30]
Future worth = $62439.0243902 x [7.6122550423 - 1.7459373366]
Future worth = $62439.0243902 x 5.8663177057
Future worth = $366287.15
Hence, the future worth at retirement is $366,287.15
Given:
Par value of the bond : 5,000
coupon rate of the bond: 5%
par value x coupon rate = annual interest
5,000 x 5% = 250 annual interest
Samuel will receive an annual interest of $250 until the bond reaches maturity, or he sells the bond to someone else.
Regardless of the changes in bond prices in the market, Samuel will always receive a fixed annual interest of 250 from his bond.
Answer:
$80 per unit
Explanation:
Data provided in the question:
Per unit selling cost of the product = $150
Per unit variable cost of the product = $70
Total fixed cost per month = $1200
Now,
The unit contribution margin is calculated as:
unit contribution margin = Selling price per unit - Variable cost per unit
Thus,
unit contribution margin = $150 - $70
or
unit contribution margin = $80 per unit
Hence,
The correct answer is option $80 per unit
Answer:
b. inputs and quantity of output
Explanation:
A production function is a relationship between inputs and the quantity of output. In other words, it is the entire production process that goes into creating a product. This includes the specific materials that need to be inputted into the process in order for the output to be exactly as needed in order for the product to come out as desired and the right quantity. Thus, creating a relationship between input and output
