Use mathematical induction to prove that the statement is true for every positive integer n.0.62n < 0.62n-1
What will be an ideal response?
Answers will vary. One possible proof follows.
a). Let n = 1. Then, the left-hand side of the statement is 0.621 = 0.62. The right-hand side becomes 0.621-1 = 0.620 = 1. Since 0.62 < 1, the statement is true for n = 1.
b). Assume the statement is true for n = k:
0.62k < 0.62k-1
Multiply both sides by 0.62:
0.62 ? 0.62k = 0.62k+1 < 0.62 ? 0.62k-1 = 0.62k = 0.62(k+1)-1, or
0.62k+1 < 0.62(k+1)-1
Since the statement is true for n = k + 1 as long as it is true for n = k, and since the statement is true for n = 1, then it is true for all natural numbers n.
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A. 
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B. 
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C. 
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