Use the Principle of Mathematical Induction to show that the statement is true for all natural numbers n.1 ? 2 + 2 ? 3 + 3 ? 4 + . . . + n(n + 1) = 
What will be an ideal response?
First we show that the statement is true when n = 1.
For n = 1, we get 2 = 
= 2.
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 ? 2 + 2 ? 3 + 3 ? 4 + . . . + k(k + 1) + (k + 1)(k + 2) = 
+ (k + 1)(k + 2)
= 
+ 
= 
= 
Condition II is satisfied. As a result, the statement is true for all natural numbers n.
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Solve the problem.The force F (in N) acting on an object is given by F = 12 dv/dt + 2v + 4, where v is the velocity (in m/s) and t is the time 
If the displacement is given by s = 20t0.4, find F for t = 4.3 s.
A. 20.0 N B. 5.09 N C. 33.9 N D. 15.1 N
Differentiate.
Find the value for the function.Find f(2x) when f(x) = 
.
A. 
B. 2
C. 
D. 
Write the slope-intercept form of the line that has the specified y-intercept and slope.
A. 
B. 
C. 
D. 
E. 