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Essentials Of Investments
11th Edition
ISBN:9781260013924
Author:Bodie, Zvi, Kane, Alex, MARCUS, Alan J.
Publisher:Bodie, Zvi, Kane, Alex, MARCUS, Alan J.
Chapter1: Investments: Background And Issues
Section: Chapter Questions
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You are trying to decide how much to save for retirement. Assume you plan to save $6,000 per year with the first investment made one year from now.
You think you can earn 6.5% per year on your investments and you plan to retire in 42 years, immediately after making your last $6,000 investment.
a. How much will you have in your retirement account on the day you retire?
b. If, instead of investing $6,000 per year, you wanted to make one lump-sum investment today for your retirement that will result in the same
retirement saving, how much would that lump sum need to be?
c. If you hope to live for 15 years in retirement, how much can you withdraw every year in retirement (starting one year after retirement) so that you will
just exhaust your savings with the 15th withdrawal (assume your savings will continue to earn 6.5% in retirement)?
d. If, instead, you decide to withdraw $242,000 per year in retirement (again with the first withdrawal one year after retiring), how many years will it take
until you exhaust your savings? (Use trial-and-error, a financial calculator: solve for "N", or Excel: function NPER)
e. Assuming the most you can afford to save is $1,200 per year, but you want to retire with $1,000,000 in your investment account, how high of a return
do you need to earn on your investments? (Use trial-and-error, a financial calculator: solve for the interest rate, or Excel: function RATE)
.....
a. How much will you have in your retirement account on the day you retire?
The amount in the retirement account in 42 years would be $ 1207626.66. (Round to the nearest cent.)
b. If, instead of investing $6,000 per year, you wanted to make one lump-sum investment today for your retirement that will result in the same
retirement saving, how much would that lump sum need to be?
You will need to make one lump sum investment today of $ 85752.97. (Round to the nearest cent.)
c. If you hope to live for 15 years in retirement, how much can you withdraw every year in retirement (starting one year after retirement) so that you will
just exhaust your savings with the 15th withdrawal (assume your savings will continue to earn 6.5% in retirement)?
The amount you can withdraw every year in retirement is $ 128434.46. (Round to the nearest cent.)
d. If, instead, you decide to withdraw $242,000 per year in retirement (again with the first withdrawal one year after retiring), how many years will it take
until you exhaust your savings? (Use trial-and-error, a financial calculator: solve for "N", or Excel: function NPER)
You will exhaust your savings in 6.23 years. (Round to two decimal places.)
e. Assuming the most you can afford to save is $1,200 per year, but you want to retire with $1,000,000 in your investment account, how high of a return
do you need to earn on your investments? (Use trial-and-error, a financial calculator: solve for the interest rate, or Excel: function RATE)
You will need a return of
(Round to two decimal places.)
Transcribed Image Text:You are trying to decide how much to save for retirement. Assume you plan to save $6,000 per year with the first investment made one year from now. You think you can earn 6.5% per year on your investments and you plan to retire in 42 years, immediately after making your last $6,000 investment. a. How much will you have in your retirement account on the day you retire? b. If, instead of investing $6,000 per year, you wanted to make one lump-sum investment today for your retirement that will result in the same retirement saving, how much would that lump sum need to be? c. If you hope to live for 15 years in retirement, how much can you withdraw every year in retirement (starting one year after retirement) so that you will just exhaust your savings with the 15th withdrawal (assume your savings will continue to earn 6.5% in retirement)? d. If, instead, you decide to withdraw $242,000 per year in retirement (again with the first withdrawal one year after retiring), how many years will it take until you exhaust your savings? (Use trial-and-error, a financial calculator: solve for "N", or Excel: function NPER) e. Assuming the most you can afford to save is $1,200 per year, but you want to retire with $1,000,000 in your investment account, how high of a return do you need to earn on your investments? (Use trial-and-error, a financial calculator: solve for the interest rate, or Excel: function RATE) ..... a. How much will you have in your retirement account on the day you retire? The amount in the retirement account in 42 years would be $ 1207626.66. (Round to the nearest cent.) b. If, instead of investing $6,000 per year, you wanted to make one lump-sum investment today for your retirement that will result in the same retirement saving, how much would that lump sum need to be? You will need to make one lump sum investment today of $ 85752.97. (Round to the nearest cent.) c. If you hope to live for 15 years in retirement, how much can you withdraw every year in retirement (starting one year after retirement) so that you will just exhaust your savings with the 15th withdrawal (assume your savings will continue to earn 6.5% in retirement)? The amount you can withdraw every year in retirement is $ 128434.46. (Round to the nearest cent.) d. If, instead, you decide to withdraw $242,000 per year in retirement (again with the first withdrawal one year after retiring), how many years will it take until you exhaust your savings? (Use trial-and-error, a financial calculator: solve for "N", or Excel: function NPER) You will exhaust your savings in 6.23 years. (Round to two decimal places.) e. Assuming the most you can afford to save is $1,200 per year, but you want to retire with $1,000,000 in your investment account, how high of a return do you need to earn on your investments? (Use trial-and-error, a financial calculator: solve for the interest rate, or Excel: function RATE) You will need a return of (Round to two decimal places.)
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