Use mathematical induction to prove that the statement is true for every positive integer n.12 + 42 + 72 + . . . + (3n - 2)2 = 
What will be an ideal response?
Answers will vary. One possible proof follows.
a). Let n = 1. Then, 12 = 
= 
= 1. So, the statement is true for n = 1.
b). Assume the statement is true for n = k:
Sk = 
.
Also, if the statement is true for n = k + 1, then
Sk+1 = Sk + (3(k + 1) - 2)2 = 
.
Subtract to get:
Sk+1 - Sk = (3(k + 1) - 2)2 = 
- 
Expand both sides and collect like terms:
9k2 + 6k + 1 = 
- 
9k2 + 6k + 1 = 
= 9k2 + 6k + 1
Since the equality holds, then the statement is true for n = k + 1 as long as it is true for n = k. Furthermore, the statement is true for n = 1. Therefore, the statement is true for all natural numbers n.
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Write as the sum and/or difference of logarithms. Express powers as factors.log6
A. 5log6x + 8log6y
B. 
log6
C. 5log6x - 8log6y
D. 8log6y - 5log6x
Write the equation of the line whose graph is shown.
A. y = -6x + 5
B. y = - 
x + 5
C. y = 6x + 5
D. y = - 
x + 6
Multiply.
? 
A. 
B. 
C. 
D. 
Decompose into partial fractions.
A. 
- 
B. 
- 
C. 
+ 
D. 
- 