If Maggie invests $16,250 at a rate of 4.9%, compounded monthly, find the value of the investment after 7 years. Include your calculations in your final answer.

We can solve the problem using the formula for compound interest equation:
A = P + (1 + r/n) ^nt
Where the given values are below:
P = $16, 250
r = 0.049
n = 12 months
t = 7 mohths
P = $16,250*(1 + 0.049/12)^ (12*7)
P = $22,883

Answer Link

carlos2112 carlos2112 · Answer 2 · 2020-04-27T03:44:30+02:00

Answer:

22883$

Step-by-step explanation:

We can use the concept of compound interest. Compound interest is the benefit of an investment at an interest rate over a certain period of time. The formula for compound interest is:

[tex]FV=PV(1+\frac{r}{n} )^{nt}[/tex]

Where:

[tex]FV=Future\hspace{3}value\\PV=Present\hspace{3}Value\hspace{3}or\hspace{3}Initial\hspace{3} deposit\\n=Number\hspace{3} of\hspace{3} times\hspace{3} that\hspace{3} interest\hspace{3} is\hspace{3} compounded\hspace{3} per \hspace{3}unit\hspace{3} t\\r=Interest \hspace{3}rate \\t=Time[/tex]

Using the data provided by the problem:

[tex]PV=16250\\r=4.9\%=0.049\\t=7\\n=12(Because\hspace{3}it\hspace{3}is\hspace{3}compounded \hspace{3}monthly)[/tex]

Therefore:

[tex]FV=16250*(1+\frac{0.049}{12} )^{7*12}=22883.00551\approx 22883\[/tex]

Hence, the value of the investment after 7 years is 22883$