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ACT Math : Pattern Behaviors in Exponents

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Example Questions

Example Question #182 : Exponents

Ashley makes a bank deposit of $\$2,500$ at $3.1\%$ annual interest, compounded monthly. About how many years will it take her deposit to grow to $\$3,500$ ?

Possible Answers:

years

year

Correct answer:

years

Explanation:

The formula for compound interest is

$A = P\left ( 1 + \frac{r}{n}\right )^{nt}$

where P is the principal (original) amount, r is the interest rate (in decimal form), n is the number of times per year the interest compounds, t is the time in years, and A is the final amount.

In this problem, we are solving for time, t. The given variables from the problem are:

P = 2500

r = 0.031

n = 12

A = 3500

Plugging these into the equation above, we get

$3500 = 2500\left ( 1 + \frac{0.031}{12}\right )^{12t}$

This simplifies to

$1.4 = \left ( 1 + \frac{0.031}{12}\right )^{12t}$

We can solve this by taking the natural log of both sides

$\ln \left (1.4 \right ) = \ln \left (\left ( 1 + \frac{0.031}{12}\right )^{12t} \right )$

$\ln \left (1.4 \right ) = 12t\ln \left ( 1 + \frac{0.031}{12}\right )$

$\frac{\ln \left (1.4 \right ) }{\ln \left (1 + \frac{0.031}{12}\right ) }= 12t$

$\frac{\ln \left (1.4 \right ) }{12\ln \left (1 + \frac{0.031}{12}\right ) }= t$

$t = 10.86 \approx 11$

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Example Question #1 : Pattern Behaviors In Exponents

Alice wants to invest money such that in years she has $\$3600$ . The interest rate is $4.7\%$ compounded quarterly. How much should she invest?

Possible Answers:

$\$3440$

$\$1437$

$\$2585$

$\$3395$

$\$2850$

Correct answer:

$\$2850$

Explanation:

The formula for compound interest is

$A = P\left ( 1 + \frac{r}{n}\right )^{nt}$

where P is the principal (original) amount, r is the interest rate (in decimal form), n is the number of times per year the interest compounds, t is the time in years, and A is the final amount.

In this problem, we are solving for the principal, P. The given variables from the problem are:

r = 0.047

n = 4

t = 5

A = 3600

Plugging these into the equation above, we get

$3600 = P\left ( 1 + \frac{0.047}{4}\right )^{4\cdot 5}$

Solving for P, we get

$3600 = P\left ( 1.01175)^{20}$

$\frac{3600}{(1.01175)^{20}}} = P$

2850 = P

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Example Question #2431 : Sat Mathematics

A five-year bond is opened with $\$5000$ in it and an interest rate of 2.5 %, compounded annually. This account is allowed to compound for five years. Which of the following most closely approximates the total amount in the account after that period of time?

Possible Answers:

$\$5811$

$\$5625$

$\$5518$

$\$5657$

$\$6143$

Correct answer:

$\$5657$

Explanation:

Each year, you can calculate your interest by multiplying the principle ( $\$5000$ ) by 1.025 . For one year, this would be:

1.025*5000=5125

For two years, it would be:

5125*1.025 , which is the same as 1.025*1.025*5000

Therefore, you can solve for a five year period by doing:

1.025^5*5000

Using your calculator, you can expand the 1.025^5 into a series of multiplications. This gives you 5657.041064453125 , which is closest to $\$5657$ .

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Example Question #1 : How To Find Compound Interest

If a cash deposit account is opened with $\$7500$ for a three year period at 3.5 % interest compounded once annually, which of the following is closest to the positive difference between the interest accrued in the third year and the interest accrued in the second year?

Possible Answers:

$\$281.2$

$\$11.41$

$\$81.41$

$\$9.51$

$\$0$

Correct answer:

$\$9.51$

Explanation:

It is easiest to break this down into steps. For each year, you will multiply by 1.035 to calculate the new value. Therefore, let's make a chart:

After year 1: 7500*1.035=7762.5 ; Total interest: 262.5

After year 2: 7762.5*1.035=8034.1875 ; Let us round this to 8034.19 ; Total interest: 271.69

After year 3: 8034.19 * 1.035 = 8315.38665 ; Let us round this to 8315.39 ; Total interest: 281.2

Thus, the positive difference of the interest from the last period and the interest from the first period is: 281.2-271.69=9.51

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Example Question #2 : How To Find Compound Interest

If an account has interest compounded annually at a rate of $4\%$ , what is the balance of the account after years of compounding if the initial balance is $\$2000$ ? Round to the nearest cent.

Possible Answers:

$\$2584.14$

$\$2891.45$

$\$800$

$\$2960.49$

$\$2800$

Correct answer:

$\$2960.49$

Explanation:

Recall that the equation for compounded interest (with annual compounding) is:

b_n_e_w=b_i_n_i_t_i_a_l*(1 + r)^t

Where is the balance, is the rate of interest, and is the number of years.

Thus, for our data, we need to know:

b_n_e_w=2000 * (1 + 0.04)^1^0=2000 * (1.04)^1^0

This is approximately $\$2960.49$ .

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Example Question #3 : Pattern Behaviors In Exponents

If an account has interest compounded annually at a rate of $5.5\%$ , what is the balance of the account after years of compounding if the initial balance is $\$4500$ ? Round to the nearest cent.

Possible Answers:

$\$5408.4$

$\$5881.32$

$\$5737.5$

$\$5934.14$

$\$5494.15$

Correct answer:

$\$5881.32$

Explanation:

Recall that the equation for compounded interest (with annual compounding) is:

b_n_e_w=b_i_n_i_t_i_a_l*(1 + r)^t

Where is the balance, is the rate of interest, and is the number of years.

Thus, for our data, we need to know:

b_n_e_w=4500 * (1 + 0.055)^5=4500 * (1.055)^5

This is approximately $\$5881.32$ .

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Example Question #3 : How To Find Compound Interest

If an account has interest compounded quarterly at an annual rate of $8\%$ , what is the balance of the account after years of compounding if the initial balance is $\$12000$ ? Round to the nearest cent.

Possible Answers:

$\$27360$

$\$16473.43$

$\$15360.50$

$\$41111.31$

$\$17834.14$

Correct answer:

$\$16473.43$

Explanation:

Recall that the equation for compounded interest (with quarterly compounding) is:

$b_n_e_w=b_i_n_i_t_i_a_l*(1 + \frac{r}{n})^t^n$

Where is the balance, is the rate of interest, is the number of years, and is the number of times it is compounded per year.

Thus, for our data, we need to know:

$b_n_e_w=12000 * (1 + \frac{0.08}{4})^4^*^4=12000 * (1.02)^1^6$

This is approximately $\$16473.43$ .

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Example Question #4 : How To Find Compound Interest

An account is compounded at a given rate of interest annually for years. What is this rate if the beginning balance for the account was $\$4500$ and its ending balance $\$10451.43$ ? Round to the nearest hundredth of a percent.

Possible Answers:

$4.18\%$

$4.3\%$

$3.5\%$

$5.39\%$

$4.98\%$

Correct answer:

$4.3\%$

Explanation:

Recall that the equation for compounded interest (with annual compounding) is:

b_n_e_w=b_i_n_i_t_i_a_l*(1 + r)^t

Where is the balance, is the rate of interest, and is the number of years.

Thus, for our data, we need to know:

10451.43=4500 * (1 + x)^2^0

Now, let's use for 1+x . This gives us:

10451.43=4500 * (b)^2^0

Using a logarithm, this can be rewritten:

$log_b(\frac{10451.43}{4500})=20$

This can be rewritten:

$\frac{log(2.32254)}{log(b)}=20$

Now, you can solve for log(b) :

$\frac{1}{log(b)}=\frac{20}{log(2.32254)}$

$log(b)=\frac{log(2.32254)}{20}$

Now, finally you can rewrite this as:

$10^\frac{log(2.32254)}{20}=b$

Thus, b=1.04303326670287....

Now, round this to 1.0430 and recall that b=1 + x

Thus, 1+x = 1.0430 and x = 0.043 or $4.3\%$

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Example Question #1 : How To Find Compound Interest

Jack has $\$15$ , 000 to invest. If he invests two-thirds of it into a high-yield savings account with an annual interest rate of $8\%$ , compounded quarterly, and the other third in a regular savings account at $6\%$ simple interest, how much does Jack earn after one year?

Possible Answers:

$\$1051.32$

$\$1081.98$

$\$1128.75$

$\$1124.32$

$\$901.43$

Correct answer:

$\$1124.32$

Explanation:

First, break the problem into two segments: the amount Jack invests in the high-yield savings, and the amount Jack invests in the simple interest account (10,000 and 5,000 respectively).

Now let's work with the high-yield savings account. $10,000 is invested at an annual rate of 8%, compounded quarterly. We can use the compound interest formula to solve:

$\text{Final Balance}=\text{ Principal} \cdot \bigg(1+\frac{\text{Interest Rate}}{c}\bigg)^{(\text{Time})(c)}$

Plug in the values given:

$=10,000\cdot \bigg(1+\frac{.08}{4}\bigg)^{(1)(4)}$

$=10,000 \cdot (1.02)^{4}$

=10,824.32

Therefore, Jack makes $824.32 off his high-yield savings account. Now let's calculate the other interest:

$\text{Interest}=\text{Principal} \cdot \text{ Interest Rate} \cdot \text{ Time}$

$=5,000 \cdot (0.06)\cdot (1)$

=300

Add the two together, and we see that Jack makes a total of, $\$1124.32$ off of his investments.

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Example Question #2 : Pattern Behaviors In Exponents

Michelle makes a bank deposit of $1,500 at 4.2% annual interest, compounded monthly. Approximately how much money will be in Michelle’s bank account in 3 years?

Possible Answers:

$1,701

$1,693

$1,697

$1,695

Correct answer:

$1,701

Explanation:

The formula to use for compounded interest is

$A=P\left(1+\frac{r}{n} \right )^{nt}$

where P is the principal (original) amount, r is the interest rate (expressed in decimal form), n is the number of times per year the interest compounds, and t is the total number of years the money is left in the bank. In this problem, P=1,500, r=0.042, n=12, and t=3.

By plugging in, we find that Michelle will have about $1,701 at the end of three years.

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ACT Math : Pattern Behaviors in Exponents

Study concepts, example questions & explanations for ACT Math

All ACT Math Resources

Example Questions

Example Question #182 : Exponents

Example Question #1 : Pattern Behaviors In Exponents

Example Question #2431 : Sat Mathematics

Example Question #1 : How To Find Compound Interest

Example Question #2 : How To Find Compound Interest

Example Question #3 : Pattern Behaviors In Exponents

Example Question #3 : How To Find Compound Interest

Example Question #4 : How To Find Compound Interest

Example Question #1 : How To Find Compound Interest

Example Question #2 : Pattern Behaviors In Exponents

All ACT Math Resources

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