We will learn how to use the formula for calculating the compound interest when interest is compounded yearly. Show
Computation of compound interest by using growing principal becomes lengthy and complicated when the period is long. If the rate of interest is annual and the interest is compounded annually then in such cases we use the following formula for compound interest. If the principal = P, rate of interest per unit time = r %, number of units of time = n, the amount = A and the compound interest = CI Then A = P(1 + \(\frac{r}{100}\))\(^{n}\) and CI = A - P = P{(1 + \(\frac{r}{100}\))\(^{n}\) - 1} Note: A = P(1 + \(\frac{r}{100}\))\(^{n}\) is the relation among the four quantities P, r, n and A. Given any three of these, the fourth can be found from this formula. CI = A - P = P{(1 + \(\frac{r}{100}\))\(^{n}\) - 1} is the relation among the four quantities P, r, n and CI. Given any three of these, the fourth can be found from this formula.
1. Find the amount and the compound interest on $ 7,500 in 2 years and at 6% compounded yearly. Solution: Here, Principal (P) = $ 7,500 Number of years (n) = 2 Rate of interest compounded yearly (r) = 6% A = P(1 + \(\frac{r}{100}\))\(^{n}\) = $ 7,500(1 + \(\frac{6}{100}\))\(^{2}\) = $ 7,500 × (\(\frac{106}{100}\))\(^{2}\) = $ 7,500 × \(\frac{11236}{10000}\) = $ 8,427 Therefore, the required amount = $ 8,427 and Compound interest = Amount - Principal = $ 8,427 - $ 7,500 = $ 927 2. In how many years will a sum of $ 1,00,000 amount to $ 1,33,100 at the compound interest rate of 10% per annum? Solution: Let the number of years = n Here, Principal (P) = $ 1,00,000 Amount (A) = $ 1,33,100 Rate of interest compounded yearly (r) = 10 Therefore, A = P(1 + \(\frac{r}{100}\))\(^{n}\) ⟹ 133100 = 100000(1 + \(\frac{10}{100}\))\(^{n}\) ⟹ \(\frac{133100}{100000}\) = (1 + \(\frac{1}{10}\))\(^{n}\) ⟹ \(\frac{1331}{1000}\)= (\(\frac{11}{10}\))\(^{n}\) ⟹ (\(\frac{11}{10}\))\(^{3}\) = (\(\frac{11}{10}\))\(^{n}\) ⟹ n = 3 Therefore, at the rate of compound interest 10% per annum, Rs. 100000 will amount to $ 133100 in 3 years. 3. A sum of money becomes $ 2,704 in 2 years at a compound interest rate 4% per annum. Find (i) the sum of money at the beginning (ii) the interest generated. Solution: Let the sum of money at the beginning = $ P Here, Amount (A) = $ 2,704 Rate of interest compounded yearly (r) = 4 Number of years (n) = 2 (i) A = P(1 + \(\frac{r}{100}\))\(^{n}\) ⟹ 2,704 = P(1 + \(\frac{4}{100}\))\(^{2}\) ⟹ 2,704 = P(1 + \(\frac{1}{25}\))\(^{2}\) ⟹ 2,704 = P(\(\frac{26}{25}\))\(^{2}\) ⟹ 2,704 = P × \(\frac{676}{625}\) ⟹ P = 2,704 × \(\frac{625}{676}\) ⟹ P = 2,500 Therefore, the sum of money at the beginning was $ 2,500 (ii) The interest generated = Amount – Principal = $2,704 - $2,500 = $ 204 4. Find the rate of compound interest for $ 10,000 amounts to $ 11,000 in two years. Solution: Let the rate of compound interest be r% per annum. Principal (P) = $ 10,000 Amount (A) = $ 11,000 Number of years (n) = 2 Therefore, A = P(1 + \(\frac{r}{100}\))\(^{n}\) ⟹ 10000(1 + \(\frac{r}{100}\))\(^{2}\) = 11664 ⟹ (1 + \(\frac{r}{100}\))\(^{2}\) = \(\frac{11664}{10000}\) ⟹ (1 + \(\frac{r}{100}\))\(^{2}\) = \(\frac{729}{625}\) ⟹ (1 + \(\frac{r}{100}\))\(^{2}\) = (\(\frac{27}{25}\)) ⟹ 1 + \(\frac{r}{100}\) = \(\frac{27}{25}\) ⟹ \(\frac{r}{100}\) = \(\frac{27}{25}\) - 1 ⟹ \(\frac{r}{100}\) = \(\frac{2}{25}\) ⟹ 25r = 200 ⟹ r = 8 Therefore, the required rate of compound interest is 8 % per annum. ● Compound Interest Compound Interest Compound Interest with Growing Principal Compound Interest with Periodic Deductions Compound Interest by Using Formula Problems on Compound Interest Variable Rate of Compound Interest Practice Test on Compound Interest ● Compound Interest - Worksheet Worksheet on Compound Interest Worksheet on Compound Interest with Growing Principal Worksheet on Compound Interest with Periodic Deductions Didn't find what you were looking for? Or want to know more information about Math Only Math. Use this Google Search to find what you need. At what rate percent annum will a sum of 7500 amount to 8427 in 2 years compounded annually?7500Amount (A) = 8427Period = 2 yearsLet R be the rate of p.a., then∴ AP=(1+R100)n⇒ 84277500 = (1+R100)2⇒ 28092500=(1+R100)2⇒ (5350)2=(1+R100)2∴ 1+R100=5350⇒ R100=5350−1=350∴ R=350×100=6%
At what rate of compound compounded annually will 7500 become 9075 in 2 years?We have , Principal , P = Rs 7500 Time , n = 2 yrs Amount. A = P 1 + R 100 n ⇒ 9075 = 7500 1 + R 100 2 ⇒ 9075 7500 = 1 + R 100 2 ⇒ 121 100 = 1 + R 100 2 ⇒ 11 10 2 = 1 + R 100 2 ⇒ 1 + R 100 = 11 10 ⇒ R 100 = 11 10 - 1 ⇒ R 100 = 11 - 10 10 ⇒ R 100 = 1 10 ⇒ R = 10 So , rate of interest is 10.
At what rate percent per annum will a sum of 7500 give 927 as compound interest in 2 years?Answer: answer is 6%p.a.
At what rate percent will the interest on Rupees 7500 be rupees 1500 in 4 years what will be the amount after 8 years?Answer. Your answer is: Rate percent will be 5%and the amount after 8 yrs will be Rs. 9000.
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At what percent per annum will a sum of 7500 amount to 8427 in 2 years compounded annually?
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