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Calculus Index Cards

Calculus Index Cards. Front And Back. Instructions. The odd numbered slides are the front of the index card, the questions The even numbered slides are the back, the answers Write the front of the card and then write the back and carry the stack with you at all times.

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Calculus Index Cards

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  1. Calculus Index Cards Front And Back

  2. Instructions • The odd numbered slides are the front of the index card, the questions • The even numbered slides are the back, the answers • Write the front of the card and then write the back and carry the stack with you at all times

  3. Given Velocity and Position at t = 0 Front • Find speed • Acceleration • Position Function • Distance traveled

  4. Back

  5. Front • Given position find average velocity from a to b • Given a table of amounts, find the rate of change at one of those amounts • Given a function from a, to b, find the average value • Given velocity from a to b, find the average velocity

  6. Given position find average velocity from a to b old fashion slope from a to b • Given a table of amounts, find the rate of change at one of those amounts Old fashion slope around that point • Given a function from a, to b, find the average value • Given velocity from a to b, find the average velocity

  7. Given A. Use the left hand rule B. Use the right hand rule C. Use the midpoint rule D. Use the trapezoid rule

  8. Given A. Use the left hand rule B. Use the right hand rule C. Use the midpoint rule D. Use the trapezoid rule

  9. Find the equation of the line tangent to the curve • Find the equation of the line normal

  10. Given And the graph of f(x) • Find g(some number) • Find g’(x), find g’(some number) • Find where g has a max/min • Find the point of inflection of g

  11. Given And the graph of f(x) • Find g(some number) • Find g’(x), find g’(some number) • Find where g has a max/min • Find the point of inflection of g

  12. Function is continuous if (informal definition) (Formal definition) Function is differentiable if (informal) (formal)

  13. Function is continuous if (informal definition) (Formal definition) Function is differentiable if (informal) (formal)

  14. Mean Value theorem Extreme Value Theorem

  15. The derivative of this Is this

  16. The derivative of this Is this

  17. The derivative of is

  18. The derivative of is

  19. The derivative of is

  20. The derivative of is

  21. The first derivative tells us about

  22. The first derivative tells us about • Slope Instantaneous rate of change Increasing or decreasing • Max, min

  23. The second derivative tells us

  24. The second derivative tells us • Concave up concave down • Point of inflection • Rate of change of the slopes • The maximum/minimum slope

  25. Product rule Quotient rule Chain rule

  26. Product rule Quotient rule Chain rule

  27. The antiderivative of is

  28. The antiderivative of is

  29. The antiderivative of is

  30. The antiderivative of is

  31. What is this? or

  32. What is this? or Definition of the derivative

  33. Find the answer

  34. Find the answer

  35. First derivative test • f’<0 when x<a and f’>0 when x>a. What does that mean at x = a • f’>0 when x<a and f’<0 when x>a. What does that mean at x = a

  36. First derivative test • f’<0 when x<a and f’>0 when x>a. What does that mean for x = a • a is a min • f’>0 when x<a and f’<0 when x>a. What does that mean for x = a • a is a max

  37. Second derivative Test • f ’(a) = 0 and f ”(a)<0. What does that mean at f(a)? • f ’(a) = 0 and f ”(a)>0. What does that mean at f(a)?

  38. Second derivative Test • f ’(a) = 0 and f ”(a)<0. What does that mean at f(a)? • f(a) is a max • f ’(a) = 0 and f ”(a)>0. What does that mean at f(a)? • f(a) is a min

  39. What is the general solution for the following

  40. What is the general solution for the following

  41. Find the derivative of the following

  42. Find the derivative of the following

  43. underestimate or overestimate? • left hand rule with a function that is increasing • right hand rule with a function that is increasing • tangent line approximation with a curve that is concave down • tangent line approximation with a curve that is concave up

  44. underestimate or overestimate? • left hand rule with a function that is increasing - under • right hand rule with a function that is increasing - over • tangent line approximation with a curve that is concave down - over • tangent line approximation with a curve that is concave up - under

  45. is speed increasing or decreasing • velocity is positive and acceleration is negative • velocity is negative and acceleration is negative

  46. is speed increasing or decreasing • velocity is positive and acceleration is negative - decreasing • velocity is negative and acceleration is negative - increasing

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