Answer:
$ 7,322
Explanation:
$2300 per year is an annuity investment. The formula for future annuity value is as below
FV = A × (1 + r)^n - 1 / r
Where A = amount invested periodically
r = interest rate, 6% or 0.06
n = 3 years
Fv = $2300 x{ (1 +0.6)^3 -1} /0.06
Fv = $2300 x (1.191016-1) /0.06
Fv = $2300 x ( 0.191016/0.06)
Fv = $2300 x 3.1836
Fv= $ 7,322.28
Fv= $ 7,322
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Answer: Economic costs of production differ from accounting costs in that "a. economic costs add the opportunity costs of a firm using its own resources while".
Explanation: The opportunity cost is the cost of the alternative that we waive when we make a certain decision, including the benefits that we could have obtained from having chosen the alternative option.
In other words it is referred to as "the value of the best option not selected."
Accounting costs do not take into account opportunity costs.
Answer:
D. Estimated Warranty Payable 1,500
Merchandise Inventory 1,500
When the Warranty is honored, the Estimated Warranty account is debited to show the claiming of the expense.
The relevant asset account which in this case is Merchandise inventory is credited to show that it's reduction.
Answer:
Final Value= $51,312.68
Explanation:
Giving the following information:
Monthly deposit= $150
Interest rate= 0.06/12= 0.005
Number of months= 9*12= 108
First, we need to calculate the future value of the first investment. We will use the following formula:
FV= {A*[(1+i)^n-1]}/i
A= monthly deposit
FV= {150*[(1.005^108)-1]} / 0.005
FV= $21,410.99
The second part of the investment:
Number of years= 15
Annual interest rate= 6%
<u>I will assume that the interest rate is annually compounded now. </u>If this is not the case, just change the interest rate (0.005) and "n" (15*12=180)
We need to use the following formula:
FV= PV*(1+i)^n
FV=21,410.99* (1.06^15)
FV= $51,312.68
