Answer:
FV= $79,996.75
Explanation:
Giving the following information:
Initial investment (PV)= $58,800
Interest rate (i)= 8% compounded annually
Number of periods (n)= 4 years
To calculate the future value (FV), we need to use the following formula:
FV= PV*(1+i)^n
FV= 58,800*(1.08^4)
FV= $79,996.75
The cost of direct materials transferred into the Bottling Department of the Mountain Springs Water Company is $327,600. The conversion cost for the period in the Bottling Department is $528,000. The total equivalent units for direct materials and conversion are 25,200 and 8,800 liters, respectively. Determine the direct materials and conversion cost per equivalent unit. Round your answers to the nearest cent. $fill in the blank 1 per equivalent unit of materials $fill in the blank 2 per equivalent unit of conversion costs
Answer:
$13 per Equivalent Unit of Materials,
$60 per Equivalent Unit of Conversion Costs
Explanation:
Calculation to Determine the direct materials and conversion cost per equivalent unit
Direct materials equivalent units=($327,600/25,200 liters )
Direct materials equivalent units=$13
Conversion Costs equivalent units
=($528,000/8,800 liters)
Conversion Costs equivalent units= $60
Below are several names of companies and their founders. Explain whether the business creates and sells innovative products or uses innovative methods or both
Answer:
my Answer is a products is notikdd
Your job pays you only once a year for all the work you did over the previous 12 months. Today, December 31, you just received your salary of $58,000 and you plan to spend all of it. However, you want to start saving for retirement beginning next year. You have decided that one year from today you will begin depositing 3 percent of your annual salary in an account that will earn 11 percent per year. Your salary will increase at 6 percent per year throughout your career.
Required: How much money will you have on the date of your retirement 40 years from today?
Answer:
The amount you will have on the date of your retirement 40 years from today is $1,904,087.20.
Explanation:
This can be determined using the formula for calculating the future value of growing annuity as follows:
FV = M * (((1 + r)^n - (1 + g)^n) / (r - g)) ...................................... (1)
Where
FV = Future value or the amount on the date of retirement = ?
M = First annual deposit = Annual salary * Deposit percentage = $58,000 * 3% = $1,740
r = annual interest rate = 11%, or 0.11
g = salary growth rate = 6%, or 0.06
n = number of years = 40 years
Substituting all the values into equation (1), we have:
FV = $1,740 * (((1 + 0.11)^40 - (1 + 0.06)^40) / (0.11 - 0.06))
FV = $1,740 * 1,094.30298736951
FV = $1,904,087.20
Therefore, the amount you will have on the date of your retirement 40 years from today is $1,904,087.20.
Which of the following statements about annuities are true? Check all that apply. An ordinary annuity of equal time earns less interest than an annuity due. Annuities are structured to provide fixed payments for a fixed period of time. When equal payments are made at the beginning of each period for a certain time period, they are treated as ordinary annuities. When equal payments are made at the beginning of each period for a certain time period, they are treated as an annuity due.
Answer:
The true statements are:
Annuities are structured to provide fixed payments for a fixed period of time.
When equal payments are made at the beginning of each period for a certain time period, they are treated as an annuity due.
Explanation:
Annuities provide fixed payments for a lifetime or a specified period of time. With equal payments at the beginning of each period for a fixed period of time, the annuity is regarded as an annuity due. But with equal payments at the end of the period, it is an ordinary annuity. A common example of annuity due is payment for Rent at the beginning of the month or year. If the Rent is paid at the end of the month or year, it is an ordinary annuity.