FINANCIAL+MANAG.ACCT.
9th Edition
ISBN: 9781260728774
Author: Wild
Publisher: RENT MCG
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For each of the following cases, indicate (a) to what rate columns, and (b) to what number of periods you would refer in looking up the interest factor.1. In a future value of 1 table:
Annual Rate
Number of Years Invested
Compounded
(a) Rate of Interest
(b) Number of Periods
a.
11%
10
Annually
enter percentages
%
enter the number of periods
b.
8%
8
Quarterly
enter percentages
%
enter the number of periods
c.
10%
19
Semiannually
enter percentages
%
enter the number of periods
2. In a present value of an annuity of 1 table: (Round answers to 1 decimal place, e.g. 458,58.1.)
Annual Rate
Number of Years Invested
Number of Rents Involved
Frequency of Rents
(a) Rate of Interest
(b) Number of Periods
a.
12%
30
30
Annually
enter percentages
%
enter the number of periods
b.
11%
16
32
Semiannually
enter percentages
%
enter the number…
For each of the following cases, indicate (a) to what rate columns, and (b) to what number of periods you would refer in looking up the
interest factor.
1. In a future value of 1 table:
a.
b.
C.
Annual
Rate
11%
12%
12%
Number of Years
Invested
11
8
16
Compounded
Annually
Quarterly
Semiannually
(a) Rate of Interest
%
%
%
(b) Number of Periods
For each of the following cases, indicate (a) to what rate columns, and (b) to what number of periods you would refer in looking up the interest factor.1. In a future value of 1 table:
Annual Rate
Number of Years Invested
Compounded
(a) Rate of Interest
(b) Number of Periods
a.
11%
10
Annually
%
b.
8%
8
Quarterly
%
c.
10%
19
Semiannually
%
2. In a present value of an annuity of 1 table: (Round answers to 1 decimal place, e.g. 458,58.1.)
Annual Rate
Number of Years Invested
Number of Rents Involved
Frequency of Rents
(a) Rate of Interest
(b) Number of Periods
a.
12%
30
30
Annually
%
b.
11%
16
32
Semiannually
%
c.
12%
8
32
Quarterly
%
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- For each of the following cases, indicate (a) to what rate columns, and (b) to what number of periods you would refer in looking up the interest factor. 1. In a future value of 1 table: Annual Rate Number of Years Invested Compounded (a) Rate of Interest a. 9% 12 Annually b. 8% 7 Quarterly C. 12% 16 Semiannually % % % (b) Number of Periods 2. In a present value of an annuity of 1 table: (Round "Rate of Interest" answers to 1 decimal place, e.g. 4.5% and other answers to O decimal places, e.g 45.) Annual Number of Years Rate Invested Number of Rents Involved Frequency of Rents (a) Rate of Interest (b) Number of Periods a. 10% 28 28 Annually b. 10% 15 30 Semiannually % % 8% 7 28 Quarterly %arrow_forwardFor each of the following cases, indicate (a) to what rate columns, and (b) to what number of periods you would refer in looking up the interest factor. 1. In a future value of 1 table: a. b. J C. a. b. Annual Rate C. 10% 8% 10% Annual Rate 9% 11% Number of Years Invested 12% 2. In a present value of an annuity of 1 table: (Round answers to 1 decimal place, e.g. 458,58.1.) Number of Rents Involved Number of Years Invested 29 16 10 7 7 20 29 32 Compounded 28 Annually Quarterly Semiannually Frequency of Rents Annually Semiannually (a) Rate of Interest Quarterly (a) Rate of Interest % % % % % % (b) Number of Periods (b) Number of Periodsarrow_forwardFor each of the following cases, indicate (a) to what interest rate columns and (b) to what number of periods you would refer in looking up the future value factor. (Round percentages to 2 decimal places, e.g. 5,275.)(1) In Table 1 (future value of 1): Annual Rate Number ofYears Invested Compounded Case A 4% 3 Annually Case B 9% 5 Semiannually (a) (b) Case A % periods Case B % periods (2) In Table 2 (future value of an annuity of 1): Annual Rate Number ofYears Invested Compounded Case A 6% 5 Annually Case B 12% 6 Semiannually (a) (b) Case A % periods Case B % periodsarrow_forward
- An interest rate obtained by dividing the nominal rate per year by the number of compounding periods in that year isa. A nominal interest rateb. An effective interest ratec. An effective interest rate only if the compounding period is monthlyd. Either (b) or (c)arrow_forwardFor each of the following cases, indicate (a) to what rate columns, and (b) to what number of periods you would refer in looking up the interest factor. 1. In a future value of 1 table: a. b. C. a. b. Annual Rate C. 11% 12% 12% Annual Rate 10% 11% 12% Number of Years Invested Number of Years Invested 25 14 6 11 7 2. In a present value of an annuity of 1 table: (Round "Rate of Interest" answers to 1 decimal place, e.g. 4.5% and other answers to O decimal places, e.g 45.) 19 Number of Rents Involved 25 28 Compounded 24 Annually Quarterly Semiannually Frequency of Rents Annually Semiannually (a) Rate of Interest Quarterly % (a) Rate of Interest % % % % de (b) Number of Periods % (b) Number of Periodsarrow_forwardCompute the future values of the following annuities first assuming that payments are made on the last day of the period and then assuming payments are made on the first day of the period: (Do not round intermediate calculations. Round your answers to 2 decimal places. (e.g., 32.16)) Payment $ 183 5,155 75,084 167,932 Years 13 8 5 9 Interest Rate (Annual) 12% 11 13 4 Future Value (Payment made on last day of period) 4 Future Value (Payment made on first day of period)arrow_forward
- For each of the following cases, indicate (a) to what rate columns, and (b) to what number of periods you would refer in looking up the interest factor. 1. In a future value of 1 table: a. b. C. a. b. Annual Rate C. 10% 12% 12% Annual Rate 12% 12% 8% Number of Years Invested Number of Years Invested 26 16 7 12 6 2. In a present value of an annuity of 1 table: (Round "Rate of Interest" answers to 1 decimal place, e.g. 4.5% and other answers to O decimal places, e.g 45.) 20 Number of Rents Involved 26 32 Compounded 28 Annually Quarterly Semiannually Frequency of Rents Annually Semiannually (a) Rate of Interest Quarterly % (a) Rate of Interest % % % % (b) Number of Periods % (b) Number of Periodsarrow_forwardEnter the missing piece of information, assuming the interest calculated is simple interest and the time period is given in months. Give your answer in months, and rounded to the nearest whole number of months. Principal / Present Value $2,350.00 Time Annual Interest Rate (months) 7.20% 0.00 Maturity / Future Value $2,519.20arrow_forwardFor each of the following situations involving annulties, solve for the unknown. Assume that interest is compounded annually and that all annulty amounts are received at the end of each period. (/= Interest rate, and n = number of years) Note: Use tables, Excel, or a financial calculator. Round your final answers to nearest whole dollar amount. (FV of $1, PV of $1, FVA of $1, PVA of $1, FVAD of $1 and PVAD of $1) 1. 2. 3. 4. 5. Present Value 248, 196 442,750 650,000 175,000 Annuity Amount $ 5,000 80,000 60,000 155,040 8% 11% 10% n = 5 4 10 4arrow_forward
- Compute the future values of the following annuities first assuming that payments are made on the last day of the period and then assuming payments are made on the first day of the period: (Do not round intermediate calculations. Round your answers to 2 decimal places. (e.g., 32.16)) Future Value (Payment Payment Years Interest Rate (Annual) made on last day of period) $ 243 15 12 % 5,755 10 11 75,684 7 13 168,532 11 4 Future Value (Payment made on first day of period)arrow_forwardCalculate the present value of the following annulties, assuming each annuity payment is made at the end of each compounding period. (FV of $1, PV of $1, FVA of $1, and PVA of S1) (Use tables, Excel, or a financial calculator. Round your answers to 2 decimal places.) \table[[, \table[[Annuity], [Payment]], \table [[ Annual], [Rate]], \table[[Interest], [Compounded]], \table [[Period], [Invested]], \table [[Present Value of], [ Annuity]]], [1., $5,000, 7.0%, Semiannually,3 years,], [2., 10, 000, 8.0%, Quarterly,2 years, ], [3., 4,000, 10.0 %, Annually,5 years,]]arrow_forwardQ)Solve "Nominal and Effective Interest Rates" For an interest rate of 2% per quarter, determine the effective interest rate (a)quarterly (b) semi-annually (c) yearly, and (d)monthly. Please solve all the subpartsarrow_forward
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