What is the correct future value formula for annual compounding?

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Multiple Choice

What is the correct future value formula for annual compounding?

Explanation:
Annual compounding grows the balance by a factor of 1 + r each year. After n years, those growth factors stack, so the amount you end up with is PV multiplied by (1 + r) n times: FV = PV × (1 + r)^n. For example, with PV = 1000, r = 0.05, and n = 3, you get FV ≈ 1000 × (1.05)^3 ≈ 1157.63. Using an exponent of n−1 would miss one year of growth, giving too small a value. An exponent of n+1 would add an extra year of growth, giving too large a value. Subtracting 1 after the growth (PV × (1 + r)^n − 1) incorrectly alters the total, since future value of a lump sum doesn’t require subtracting 1.

Annual compounding grows the balance by a factor of 1 + r each year. After n years, those growth factors stack, so the amount you end up with is PV multiplied by (1 + r) n times: FV = PV × (1 + r)^n.

For example, with PV = 1000, r = 0.05, and n = 3, you get FV ≈ 1000 × (1.05)^3 ≈ 1157.63.

Using an exponent of n−1 would miss one year of growth, giving too small a value. An exponent of n+1 would add an extra year of growth, giving too large a value. Subtracting 1 after the growth (PV × (1 + r)^n − 1) incorrectly alters the total, since future value of a lump sum doesn’t require subtracting 1.

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