Monthly payments of $75 are paid into an annuity beginning on January 31 with a yearly interest rate of 9% compounded monthly. What is the total value of the annuity on September 1 (round to nearest cent).
MATH 110 Sec 8-4: AnnuitiesPractice Exercises
Monthly payments of $75 are paid into an annuity beginning on January 31 with a yearly interest rate of 9% compounded monthly. What is the total value of the annuity on September 1 (round to nearest cent).
MATH 110 Sec 8-4: AnnuitiesPractice Exercises
First note that payments on an ordinary annuity are made at the end of each month so, by Sep 1, there are a total of 8 monthly payments.
Monthly payments of $75 are paid into an annuity beginning on January 31 with a yearly interest rate of 9% compounded monthly. What is the total value of the annuity on September 1 (round to nearest cent).
MATH 110 Sec 8-4: AnnuitiesPractice Exercises
Also remember that t MUST be in years. So, 8 months is year.
First note that payments on an ordinary annuity are made at the end of each month so, by Sep 1, there are a total of 8 monthly payments.
Monthly payments of $75 are paid into an annuity beginning on January 31 with a yearly interest rate of 9% compounded monthly. What is the total value of the annuity on September 1 (round to nearest cent).
MATH 110 Sec 8-4: AnnuitiesPractice Exercises
(and ) where and
Find the value of the ordinary annuity at the end of the indicated time period (to nearest cent). The frequency of deposits is the same as the frequency of compounding. Amount: $1000, 5.5% quarterly, 8 yrs
MATH 110 Sec 8-4: AnnuitiesPractice Exercises
Find the value of the ordinary annuity at the end of the indicated time period (to nearest cent). The frequency of deposits is the same as the frequency of compounding. Amount: $1000, 5.5% quarterly, 8 yrs
MATH 110 Sec 8-4: AnnuitiesPractice Exercises
where and
Kal wants to save $15,000 in 6 years with monthly payments to an ordinary annuity for a down payment on a condo at the beach. If the annuity pays 0.6% monthly interest, what will his monthly payment be? (Round answer UP to the nearest cent.)
MATH 110 Sec 8-4: AnnuitiesPractice Exercises
Kal wants to save $15,000 in 6 years with monthly payments to an ordinary annuity for a down payment on a condo at the beach. If the annuity pays 0.6% monthly interest, what will his monthly payment be? (Round answer UP to the nearest cent.)
MATH 110 Sec 8-4: AnnuitiesPractice Exercises
where and
Kal wants to save $15,000 in 6 years with monthly payments to an ordinary annuity for a down payment on a condo at the beach. If the annuity pays 0.6% monthly interest, what will his monthly payment be? (Round answer UP to the nearest cent.)
MATH 110 Sec 8-4: AnnuitiesPractice Exercises
where and
BE CAREFUL! We are accustomed to being given r (the ANNUAL interest rate).
But here we are given i (the MONTHLY interest rate) instead.
Kal wants to save $15,000 in 6 years with monthly payments to an ordinary annuity for a down payment on a condo at the beach. If the annuity pays 0.6% monthly interest, what will his monthly payment be? (Round answer UP to the nearest cent.)
MATH 110 Sec 8-4: AnnuitiesPractice Exercises
where and
So, the problem tells us directly that
BE CAREFUL! We are accustomed to being given r (the ANNUAL interest rate).
But here we are given i (the MONTHLY interest rate) instead.
Kal wants to save $15,000 in 6 years with monthly payments to an ordinary annuity for a down payment on a condo at the beach. If the annuity pays 0.6% monthly interest, what will his monthly payment be? (Round answer UP to the nearest cent.)
MATH 110 Sec 8-4: AnnuitiesPractice Exercises
where and so
At age 21 Julio begins saving $1200 each year until age 35 (15 payments) in an ordinary annuity paying 7.5% annual interest compounded yearly and then leaves his money in the account until age 65 (30 yrs). Max begins at age 41 saving $2400 per year in the same type of account until age 65 (25 payments). How much does each have in his account at age 65? (Round answers to the nearest cent.)
MATH 110 Sec 8-4: AnnuitiesPractice Exercises
MATH 110 Sec 8-4: AnnuitiesPractice Exercises
The case of Max is simpler so let’s do it first.
At age 21 Julio begins saving $1200 each year until age 35 (15 payments) in an ordinary annuity paying 7.5% annual interest compounded yearly and then leaves his money in the account until age 65 (30 yrs). Max begins at age 41 saving $2400 per year in the same type of account until age 65 (25 payments). How much does each have in his account at age 65? (Round answers to the nearest cent.)
MATH 110 Sec 8-4: AnnuitiesPractice Exercises
The case of Max is simpler so let’s do it first.
where and
At age 21 Julio begins saving $1200 each year until age 35 (15 payments) in an ordinary annuity paying 7.5% annual interest compounded yearly and then leaves his money in the account until age 65 (30 yrs). Max begins at age 41 saving $2400 per year in the same type of account until age 65 (25 payments). How much does each have in his account at age 65? (Round answers to the nearest cent.)
MATH 110 Sec 8-4: AnnuitiesPractice Exercises So for Max, $163,146.87
At age 21 Julio begins saving $1200 each year until age 35 (15 payments) in an ordinary annuity paying 7.5% annual interest compounded yearly and then leaves his money in the account until age 65 (30 yrs). Max begins at age 41 saving $2400 per year in the same type of account until age 65 (25 payments). How much does each have in his account at age 65? (Round answers to the nearest cent.)
MATH 110 Sec 8-4: AnnuitiesPractice Exercises So for Max, $163,146.87
Now let’s look at Julio’s case.
At age 21 Julio begins saving $1200 each year until age 35 (15 payments) in an ordinary annuity paying 7.5% annual interest compounded yearly and then leaves his money in the account until age 65 (30 yrs). Max begins at age 41 saving $2400 per year in the same type of account until age 65 (25 payments). How much does each have in his account at age 65? (Round answers to the nearest cent.)
MATH 110 Sec 8-4: AnnuitiesPractice Exercises So for Max, $163,146.87
Now let’s look at Julio’s case.
At age 21 Julio begins saving $1200 each year until age 35 (15 payments) in an ordinary annuity paying 7.5% annual interest compounded yearly and then leaves his money in the account until age 65 (30 yrs). (Round to the nearest cent.)
MATH 110 Sec 8-4: AnnuitiesPractice Exercises So for Max, $163,146.87
Now let’s look at Julio’s case.
At age 21 Julio begins saving $1200 each year until age 35 (15 payments) in an ordinary annuity paying 7.5% annual interest compounded yearly and then leaves his money in the account until age 65 (30 yrs). (Round to the nearest cent.)
where and
MATH 110 Sec 8-4: AnnuitiesPractice Exercises So for Max, $163,146.87
So, after 15 years, Julio has A = $31,342.03764 in his account.
At age 21 Julio begins saving $1200 each year until age 35 (15 payments) in an ordinary annuity paying 7.5% annual interest compounded yearly and then leaves his money in the account until age 65 (30 yrs). (Round to the nearest cent.)
MATH 110 Sec 8-4: AnnuitiesPractice Exercises So for Max, $163,146.87
So, after 15 years, Julio has A = $31,342.03764 in his account.
At age 21 Julio begins saving $1200 each year until age 35 (15 payments) in an ordinary annuity paying 7.5% annual interest compounded yearly and then leaves his money in the account until age 65 (30 yrs). (Round to the nearest cent.)
But now, Julio just lets that money sit in the account for 30 more years with no more periodic payments.
MATH 110 Sec 8-4: AnnuitiesPractice Exercises So for Max, $163,146.87
So, after 15 years, Julio has A = $31,342.03764 in his account.
At age 21 Julio begins saving $1200 each year until age 35 (15 payments) in an ordinary annuity paying 7.5% annual interest compounded yearly and then leaves his money in the account until age 65 (30 yrs). (Round to the nearest cent.)
But now, Julio just lets that money sit in the account for 30 more years with no more periodic payments.This means for the last 30 years, this account is just an ordinary compound interest account.
MATH 110 Sec 8-4: AnnuitiesPractice Exercises So for Max, $163,146.87
So, after 15 years, Julio has A = $31,342.03764 in his account.
At age 21 Julio begins saving $1200 each year until age 35 (15 payments) in an ordinary annuity paying 7.5% annual interest compounded yearly and then leaves his money in the account until age 65 (30 yrs). (Round to the nearest cent.)
But now, Julio just lets that money sit in the account for 30 more years with no more periodic payments.
where and
This means for the last 30 years, this account is just an ordinary compound interest account.
MATH 110 Sec 8-4: AnnuitiesPractice Exercises So for Max, $163,146.87
So, after 15 years, Julio has A = $31,342.03764 in his account.
At age 21 Julio begins saving $1200 each year until age 35 (15 payments) in an ordinary annuity paying 7.5% annual interest compounded yearly and then leaves his money in the account until age 65 (30 yrs). (Round to the nearest cent.)
where and
This means for the last 30 years, this account is just an ordinary compound interest account.
MATH 110 Sec 8-4: AnnuitiesPractice Exercises So for Max, $163,146.87
At age 21 Julio begins saving $1200 each year until age 35 (15 payments) in an ordinary annuity paying 7.5% annual interest compounded yearly and then leaves his money in the account until age 65 (30 yrs (Round to the nearest cent.)
and for Julio, $274,398.14
MATH 110 Sec 8-4: AnnuitiesPractice Exercises
So for Max, $163,146.87
and for Julio, $274,398.14
At age 21 Julio begins saving $1200 each year until age 35 (15 payments) in an ordinary annuity paying 7.5% annual interest compounded yearly and then leaves his money in the account until age 65 (30 yrs). Max begins at age 41 saving $2400 per year in the same type of account until age 65 (25 payments). How much does each have in his account at age 65? (Round answers to the nearest cent.)