Use mathematical induction to prove the statement is true for all positive integers n.12 + 42 + 72 + . . . + (3n - 2)2 = 
What will be an ideal response?
Answers may vary. Possible answer:
First we show that the statement is true when n = 1.
For n = 1, we get 12 = 
Since 
= 
= 1 , P1 is true and the first condition for the principle of induction is satisfied.
Next, we assume the statement holds for some unspecified natural number k. That is,
Pk: 12 + 42 + 72 + . . . + (3k - 2)2 = 
is assumed true.
On the basis of the assumption that Pk is true, we need to show that Pk+1 is true.
Pk+1: 
So we assume that 
is true and add the next term, 
to both sides of the equation.
12 + 42 + 72 + . . . + (3k - 2)2 + (3(k + 1) - 2)2 = 
+ (3(k + 1) - 2)2
12 + 42 + 72 + . . . + (3k - 2)2 + (3(k + 1) - 2)2 = 
+ (9k2 + 6k + 1)
12 + 42 + 72 + . . . + (3k - 2)2 + (3(k + 1) - 2)2 = 
12 + 42 + 72 + . . . + (3k - 2)2 + (3(k + 1) - 2)2 = 
12 + 42 + 72 + . . . + (3k - 2)2 + (3(k + 1) - 2)2 = 
The last equation says that Pk+1 is true if Pk is assumed to be true. Therefore, by the principle of mathematical induction, the statement 
is true for all natural numbers n.
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