SOLUTION: Help!! I know once you get a) you keep uping the power? The formula for calculating the amount of money returned for an initial deposit money into a bank account or CD is give

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Question 83310: Help!! I know once you get a) you keep uping the power?
The formula for calculating the amount of money returned for an initial deposit money into a bank account or CD is give by
A = P(1+r/n)^nt
A is the amount of returned
P is the principal amount initially deposited
r is the annual interest rate (expressed as a decimal).
n is the compound period
t is the number of years
carry all calculations to 6 decimals on all assignments then round the answer to the nearest cent.
Suppose you deposit $10,000 for 2 years at a rate of 10%
a) calculate the return (A) if the bank compounds annually (n-1). Round your answer to the hundredth's place
answer:
show work here: (use ^ to indicate the power)
b) calculate the return (A0 if the bank compounds quarterly (n=4). Round answer to the hundredth's place
answer
show work:
c)calculate the return (A) if the bank compounds monthly (n= 12) Round to the hundredth's place
answer and show work
d) calculate the return (A) is the bank compounds daily (n =365) round to hendredth's
answer and show work
e) what observation can you make about the size of the increase of your return as your compounding increases more frequently?
answer
f) if a bank compounds continuously, then the formula takes a simpler, that is A = Pe^rt where e is a constant and equals approximatley 2.7183.
calculate A with continuous compounding. round to hun.
answer and show work
g) now suppose, instead of knowing t, we know that the bank returned to us $15,000 with the bank compounding continuously. Using natural logarithms, find how long we left the money in teh bank (find t) round to hunds.
answer and show work
h) A commonly asked question is, "How long will it take to double my money"? At 10% interest and continuous compounding, what is the answer? round hundrd.
answer and show work

Answer by jim_thompson5910(35256) About Me  (Show Source):
You can put this solution on YOUR website!
3)
Using this formula A=P%281%2Br%2Fn%29%5E%28nt%29 calculate the following:

a)Calculate the return (A) if the bank compounds annually (n = 1)
A=10000%281%2B0.10%2F1%29%5E%281%2A2%29 Start with the given expression
A=10000%281%2B0.1%29%5E%282%29 Divide 0.10 by 1 and multiply the exponents 1 and 2
A=10000%281.1%29%5E%282%29 Add
A=10000%281.21%29 Raise 1.1 to 2
A=12100 Multiply

So the return is $12,100


b)Calculate the return (A) if the bank compounds quarterly (n = 4)
A=10000%281%2B0.10%2F4%29%5E%284%2A2%29 Start with the given expression
A=10000%281%2B0.025%29%5E%288%29 Divide 0.10 by 4 and multiply the exponents 4 and 2
A=10000%281.025%29%5E%288%29 Add
A=10000%281.21840289750992%29 Raise 1.025 to 8
A=12184.0289750992 Multiply

So the return is $12184.03


c)Calculate the return (A) if the bank compounds monthly(n = 12)
A=10000%281%2B0.10%2F12%29%5E%2812%2A2%29 Start with the given expression
A=10000%281%2B0.00833333333333333%29%5E%2824%29 Divide 0.10 by 12 and multiply the exponents 12 and 2
A=10000%281.00833333333333%29%5E%2824%29 Add
A=10000%281.22039096137556%29 Raise 1.00833333333333 to 24
A=12203.9096137556 Multiply

So the return is $12203.91

d)Calculate the return (A) if the bank compounds daily (n = 365)
A=10000%281%2B0.10%2F365%29%5E%28365%2A2%29 Start with the given expression
A=10000%281%2B0.000273972602739726%29%5E%28730%29 Divide 0.10 by 365 and multiply the exponents 365 and 2
A=10000%281.00027397260274%29%5E%28730%29 Add
A=10000%281.22136930163979%29 Raise 1.00027397260274 to 730
A=12213.6930163979 Multiply

So the return is $12213.69


e) What observation can you make about the size of the increase in your return as your compounding increases more frequently?

As the compounding frequency increases, the return slowly approaches some finite number (which in this case appears to be about $12213.69). Think about it, banks wouldn't be too fond of shelling out an infinite amount of cash.


f)Calculate A with continuous compounding
Using the contiuous compounding formula A=Pe%5E%28rt%29 where e is the constant 2.7183 and letting r=0.1, P=10,000, and t=2 we get

A=10000%282.7183%29%5E%280.1%2A2%29 Start with the given equation

A=10000%282.7183%29%5E%280.2%29 Multiply 0.1 and 2

A=10000%281.22140439115573%29 Raise 2.7183 to 0.2

A=12214.0439115572 Multiply

So using continuous compounding interest we get a return of $12,214.04 (which is real close to what we got from a daily compounding frequency)


g)Now suppose, instead of knowing t, we know that the bank returned to us $15,000 with the bank compounding continuously. Using natural logarithms, find how long we left the money in the bank (find t)

15000=10000e%5E%280.1t%29

15000%2F10000=e%5E%280.1t%29 Divide both sides by 10,000

1.5=e%5E%280.1t%29
ln%281.5%29=0.1t Take the natural log of both sides. This eliminates "e".The natural log (pronounced "el" "n") is denoted "ln" on calculators.

ln%281.5%29%2F0.1=t Divide both sides by 0.1

So we get

t=0.4054%2F0.1=4.054
t=4.054

So it will take about 4 years to generate $15,000


h) A commonly asked question is, “How long will it take to double my money?” At 10% interest rate and continuous compounding, what is the answer?

Since we want to double our money, let A=2*10,000. So A=20,000. Now solve for t:
20000=10000e%5E%280.1t%29

20000%2F10000=e%5E%280.1t%29 Divide both sides by 10,000

2=e%5E%280.1t%29
ln%282%29=0.1t Take the natural log of both sides. This eliminates "e".The natural log (pronounced "el" "n") is denoted "ln" on calculators.

ln%282%29%2F0.1=t Divide both sides by 0.1

So we get

t=0.69314%2F0.1=6.9314
t=6.9314

So it will take about 7 years to double your money.