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Ms. Battaglia AB/BC Calculus

2.3 Product & Quotient Rules and Higher-Order Derivatives Objective: Find the derivative of a function using the Product Rule and the Quotient Rule. Ms. Battaglia AB/BC Calculus. Theorem 2.7 The Product Rule.

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Ms. Battaglia AB/BC Calculus

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  1. 2.3 Product & Quotient Rules and Higher-Order DerivativesObjective: Find the derivative of a function using the Product Rule and the Quotient Rule Ms. Battaglia AB/BC Calculus

  2. Theorem 2.7 The Product Rule The product of two differentiable functions f and g is itself differentiable. Moreover, the derivative of fg is the first function times the derivative of the second, plus the second function times the derivative of the first.

  3. Using the Product Rule • Find the derivative of

  4. Using the Product Rule • Find the derivative of

  5. Using the Product Rule • Find the derivative of

  6. Theorem 2.8 The Quotient Rule The quotient f/g of two differentiable functions f and g is itself differentiable at all values of x for which g(x)≠0. Moreover, the derivative of f/g is given by the denominator times the derivative of the numerator minus the numerator times the derivative of the denominator, all divided by the square of the denominator.

  7. Using the Quotient Rule • Find the derivative of

  8. Rewriting Before Differentiating • Find the equation of the tangent line to the graph of at x = -1.

  9. Using the Constant Multiple Rule

  10. Derivatives of Trig Functions

  11. Differentiating Trig Functions a. y = x – tanx b. y = xsecx

  12. Different Forms of a Derivative • Differentiate both forms of

  13. Higher-Order Derivatives • You can obtain an acceleration function by differentiating a velocity function. • Higher-order derivatives: differentiating more than once

  14. Finding the Acceleration Due to Gravity Because the moon has no atmosphere, a falling object on the moon encounters no air resistance. In 1971, astronaut David Scott proved that a feather and a hammer fall at the same rate of the moon. The position function for each of these falling objects is gien by s(t)=-0.81t2 + 2 where s(t) is the height in meters and t is the time in seconds. What is the ratio of Earth’s gravitational force to the moon’s?

  15. Classwork/Homework • Read 2.3, Page 126 #19-53 odd, 81, 82, 87, 99, 103, 131-136

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