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CanadaON
Grade 11

Compound Interest - Finding other values

Interactive practice questions

Isabelle is considering whether it would be greatly beneficial for her to invest her money now rather than $5$5 years down the track. For an initial investment of $\$3000$$3000, the function $A=3000\left(1.026\right)^t$A=3000(1.026)t models how value her money will grow to in $t$t years.

Regardless of whether she invests now or in $5$5 years time, she will close the account when she retires (more than $8$8 years in the future).

How many times more will her closing balance be if she starts investing now rather than $5$5 years down the track? Give your answer correct to two decimal places.

Easy
4min

At what annual compound interest rate, $r$r, must Joanne invest $\$220$$220 if she wishes to triple her money in $17$17 years? Give your answer as a percentage correct to two decimal places.

Easy
5min

At what annual compound interest rate, $r$r, must you invest your money so that $\$1000$$1000 grows twofold in $16$16 years? Give your answer as a percentage, correct to 2 decimal places.

Easy
3min

Find the principal, $P$P, that would need to be invested at $6%$6% p.a. compounded semiannually to accumulate $\$7600$$7600 in $9$9 years. Give your answer to the nearest dollar.

Easy
3min
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Outcomes

11U.C.3.3

Solve problems, using a scientific calculator, that involve the calculation of the amount, A (also referred to as future value, FV), the principal, P (also referred to as present value, PV), or the interest rate per compounding period, i, using the compound interest formula in the form A = P(1 + i)^n [or FV = PV(1 + i)^n]

11U.C.3.4

Determine, through investigation using technology, the number of compounding periods, n, using the compound interest formula in the form A = P(1 + i)^n [or FV = PV(1 + i)^n ]; describe strategies

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