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19 August, 02:51

A person invests 3000 dollars in a bank. The bank pays 5.75% interest compounded annually. To the nearest tenth of a year, how long must the person leave the money in the bank until it reaches 7200 dollars?

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  1. 19 August, 02:59
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    15.7 years

    Step-by-step explanation:

    Use the formula for compound interest. A = P (1 + i) ⁿ

    A is the total amount of money. A = 7200

    P is the principal, starting money. P = 3000

    i is the interest per compounding period in decimal form. Since interest is compounded annually, i = 0.0575

    n is the number of compounding periods. n = ?

    Substitute the information into the formula and isolate n.

    A = P (1 + i) ⁿ

    7200 = 3000 (1 + 0.0575) ⁿ Solve inside the brackets

    7200 = 3000 (1.0575) ⁿ

    7200/3000 = 1.0575ⁿ Divide both sides by 3000

    2.4 = 1.0575ⁿ

    n = (㏒ ans) / (㏒ base)

    n = (㏒ (2.4)) / (㏒ (1.0575))

    n = 15.659 ... Exact answer

    n ≈ 15.7 Rounded to the nearest tenth of a year

    Therefore the person must leave the money in the bank for 15.7 years until it reaches 7200 dollars.
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