The Time Value of Money Marketing Writing Assignment - 1100 Words

The Time Value of Money Marketing Writing Assignment (Essay Sample) Content: The Time Value of MoneyName:Institutional Affiliation:The Time Value of MoneyIssue AMoney has a time value generally expressed as an interest. The right to one dollar today is more valuable than the right to one dollar one year from now, this is shown by the amount that could be earned by investing one dollar for one year. If interest is not repaid as it accumulates, the amount to be received increases at a compound rate reflecting the fact that, the interest received must be made available (MoneyHabits, 2018). Consequently, if this interest is unpaid, it should continue earning until it is paid. Interest is an amount of money which is paid to you when you make an investment or which you have to pay when you take out a loan (MoneyHabits, 2018). The compound interest is the interest calculated on the principal amount and also on the total accumulated interest. It is arrived at by multiplying the principal amount by one adding the annual interest rate raised to the numb er of compound periods subtracted one (Financial Mentor, 2018). The initial total amount of the loan is then subtracted from the resulting value.The compound interest calculation in the case study of Mary is shown below; Formula; A = P(1+i)n-1iP= the principal amount.I=rate of interest stated as a decimaln= is the number of compounding periods per year.T = this is the time expressed in years.P= 500,i= 5/100 = 0.05,n= 19.CalculationA = 500(1+0.05)20-10.05 = $16,533After 20 years, the total amount of money deposited by Mary will certainly have changed. The principal amount will have increased. And the Principal will become the amount currently in the account. If Mary chooses to close the account after making another deposit of $500, she will get an amount of $16,533 from the bank at the end of the last deposit and closing of the account. Taking into consideration the compound interest accumulated over the years, the interest amount cannot be the same (Jo, 2013).Issue BThis is like an investment to Mary. Since the power of compounding enables Mary's money to grow exponentially over time. This is so because the returns from previous years remain invested.Total amount per year = $75,000.Period to be paid=20 yrs.Interest rate=7%Total amount to be earned after 19 years:75000(1+0.07)19-10.07=$2,803,422.37+ 75000=$2,878,422.37This is the total amount of money to be paid by the university each year. So after 20 years, the total payout will add up to.$2,803,422.37+ 75,000.00$ 2,878,422.37- The total amount she stands to benefit.Since Mary wants to be paid the whole amount a once, we have to calculate the present value of an annuity. This is supposed to show the total amount that she is likely to receive after 20 years. The present value of an annuity is the sum of all payments made and the interest earned on an account (Koening, 2011).Formula PV= FV(1+i)tni=interest rate (this is the amount charged and is expressed as a percentage of principal)FV=future value - this is the value of the amount or an asset at a specified datet=periodn= number of times the interest is compounded per yearHence;The total future value to be paid to Mary is;PV= 2,878,422.37(1+0.07)1x20 = $743,839.039Therefore, if Mary wants to be paid the total amount at once, she is likely to receive a total of $743,839.039.According to the calculations above, it is very crucial and critical to consider the necessity and importance of being paid in a one lump sum.Issue CThe present value of annuity represents the promised future payments which have been discounted to an equivalent value right now (Koening, 2011). To come up with the present value of the deferred annuity, we can discount the previous figure using the given interest rate and the number of periods before the payments commence. We can achieve this by using the PV formula: PV [(1/(1+r))^t], PV stands for the amount at the start period when the payments beg in, and t represents the number of periods at the time when no payments are made (Koening, 2011). But in this case we have already obtained the future value; we can easily obtain the present value using the future value and the period remaining after the three years.Working:The Present Value of Annuity is;PV= FV(1+i)tnWherebyFV=Future Valuei=Interest Ratet=number of years the amount is deposited or borrowed for.n= number of times the interest is compounded per yearHence;Future Value is the total amount to be paid to MaryPV= 2,878,422.37(1+0.07)1x17= $882,427Mary will receive a total of $ 882,427. This shows that the additional working period would increase the present value of her bonus. Present value calculations entail thecompounding of interest.It implies that any interest earned is reinvested and will earn interest at the same rate as theprincipal.In other words, you gain "interest on interest." The compounding of interest can be very significant when the interest rate and/or th e number of years are sizable (Averkamp, 2018).Issue DIf Mary has decided to pay half of the school fees, which is $5500, then the $5500 is the principal amount. The interest rate that is used is 4% and is compounded annually. The time for starting college is also shown as {(18-12) + 4} =10 years. The school Fees is likely to increase by 7% per year. In Mary's case study this can be solved by calculating the present value of the annuity of each payment using the present value formula (Averkamp, 2018). We can then add up the results from every calculation.The calculation below shows the total fees that Mary will pay each year at Beths college.1st year of college= 5500(1+0.07)6-10.07=$39,3432nd year of college= 5500(1+0.07)7-10.0...