Use the Principle of Mathematical Induction to show that the statement is true for all natural numbers n.1 ? 6 + 2 ? 6 + 3 ? 6 + . . . + 6n = 
What will be an ideal response?
First we show that the statement is true when n = 1.
For n = 1, we get 6 = 
= 6.
This is a true statement and Condition I is satisfied.
Next, we assume the statement holds for some k. That is,
is true for some positive integer k.
We need to show that the statement holds for k + 1. That is, we need to show that
So we assume that 
is true and add the next term, to both sides of the equation.
1 ? 6 + 2 ? 6 + 3 ? 6 + . . . + 6k + 6(k + 1) = 
+ 6(k + 1)
= 
= 
Condition II is satisfied. As a result, the statement is true for all natural numbers n.
You might also like to view...
Complete.9 mi = 
yd
A. 47,520
B. 
C. 15,840
D. 9000
Find an equation in slope-intercept form of the line that passes through the given point and has slope m.(9, 4); m is undefined
A. y = 9 B. x = 9 C. x = 4 D. y = 4
Solve the problem.If the area of a rectangle is fixed, the length of the rectangle varies inversely as the width. If the length of a rectangle is 25 inches and its width is 50 inches, find the length of a rectangle with a width of 10 inches.
A. 5 inches
B. 125 inches
C. 
inches
D. 20 inches
The two triangles below are similar. Find the missing lengths.
A. x = 24 B. x = 23 C. x = 30 D. x = 16