Section 4.2 – Differentiating Exponential Functions Section 4.3 – Product Rule/Quotient Rule

1. Section 4.2 – Differentiating Exponential Functions Section 4.3 – Product Rule/Quotient Rule THE MEMORIZATION LIST BEGINS

2. Find

3. DIFFERENTIATE POSITION s(t) VELOCITY v(t) ACCELERATION a(t) INTEGRATE

4. No Calculator A particle moves along a line so that at time t, 0 < t < 5, its position is given by a) Find the position of the particle at t = 2 b) What is the initial velocity? (Hint: velocity at t = 0) c) What is the acceleration of the particle at t = 2

5. CALCULATOR REQUIRED Suppose a particle is moving along a coordinate line and its position at time t is given by For what value of t in the interval [1, 4] is the instantaneous velocity equal to the average velocity? a) 2.00 b) 2.11 c) 2.22 d) 2.33 e) 2.44

6. then

7. NO CALCULATOR An equation of the normal to the graph of

8. NO CALCULATOR

9. NO CALCULATOR

10. NO CALCULATOR

11. NO CALCULATOR Consider the function A) 5 B) 4 C) 3 D) 2 E) 1

12. ADD TO THE MEMORIZATION LIST

13. NO CALCULATOR

17. The Basics Pythagorean Identities Double Angle Identities

18. NO CALCULATOR At x = 0, which of the following is true of • f is increasing • f is decreasing • f is discontinuous • f is concave up • f is concave down X X X

19. NO CALCULATOR If the average rate of change of a function f over the interval from x = 2 to x = 2 + h is given by A) -1 B) 0 C) 1 D) 2 E) 3

20. NO CALCULATOR The graph of has an inflection point whenever

21. NO CALCULATOR then an equation of the line tangent to the graph of F at the point where