3.3 Product Rule Tues Oct 27 Do Now Evaluate each 1) 2)

Slides:



Advertisements
Similar presentations
6.3 Volume by Slices Thurs April 9 Do Now Evaluate each integral 1) 2)
Advertisements

6.1 Area Between 2 Curves Wed March 18 Do Now Find the area under each curve in the interval [0,1] 1) 2)
4.9 Antiderivatives Wed Feb 4 Do Now Find the derivative of each function 1) 2)
7.1 Integration by Parts Fri April 24 Do Now 1)Integrate f(x) = sinx 2)Differentiate g(x) = 3x.
Section 2.4 – The Chain Rule. Example 1 If and, find. COMPOSITION OF FUNCTIONS.
4.6 Curve Sketching Thurs Dec 11 Do Now Find intervals of increase/decrease, local max and mins, intervals of concavity, and inflection points of.
3.9 Exponential and Logarithmic Derivatives Wed Nov 12 Do Now Find the derivatives of: 1) 2)
Do Now Find the derivative of each 1) (use product rule) 2)
2.4 Continuity and its Consequences Thurs Sept 17 Do Now Find the errors in the following and explain why it’s wrong:
The chain rule (2.4) October 23rd, I. the chain rule Thm. 2.10: The Chain Rule: If y = f(u) is a differentiable function of u and u = g(x) is a.
2.3 The Product and Quotient Rules and Higher Order Derivatives
2.6 Trigonometric Limits Fri Sept 25 Do Now Evaluate the limits.
3.1 The Derivative Tues Sept 22 If f(x) = 2x^2 - 3, find the slope between the x values of 1 and 4.
3.9 Exponential and Logarithmic Derivatives Thurs Oct 8
3.3 Product and Quotient Rule Fri Sept 25 Do Now Evaluate each 1) 2) 3)
Section 3.3 The Product and Quotient Rule. Consider the function –What is its derivative? –What if we rewrite it as a product –Now what is the derivative?
AP CALCULUS 1009 : Product and Quotient Rules. PRODUCT RULE FOR DERIVATIVES Product Rule: (In Words) ________________________________________________.
Powerpoint Templates Page 1 Powerpoint Templates Review Calculus.
2.7 Limits involving infinity Thurs Oct 1 Do Now Find.
3.2 The Power Rule Thurs Oct 22 Do Now Find the derivative of:
Derivatives of Logarithmic Functions Objective: Obtain derivative formulas for logs.
4.4 Concavity and Inflection Points Wed Oct 21 Do Now Find the 2nd derivative of each function 1) 2)
4.4 The Fundamental Theorem of Calculus. Essential Question: How are the integral & the derivative related?
3.8 Derivatives of Inverse Functions Fri Oct 30
Aim: How do we find the derivative by limit process? Do Now: Find the slope of the secant line in terms of x and h. y x (x, f(x)) (x + h, f(x + h)) h.
Chain Rule 3.5. Consider: These can all be thought of as composite functions F(g(x)) Derivatives of Composite functions are found using the chain rule.
December 6, 2012 AIM : How do we find the derivative of quotients? Do Now: Find the derivatives HW2.3b Pg #7 – 11 odd, 15, 65, 81, 95, 105 –
Fricovsky 4.5: Do Now: Simplify. 1.
2.5 Evaluating Limits Algebraically Fri Sept 18 Do Now Evaluate the limits 1) 2)
3-2 The Derivative Thurs Sept 24 Find the slope of the tangent line to y = f(x) at x = a 1)x^2 -4, a = 2 2)2x^3, a = 0.
Properties of Logarithms log b (MN)= log b M + log b N Ex: log 4 (15)= log log 4 3 log b (M/N)= log b M – log b N Ex: log 3 (50/2)= log 3 50 – log.
3.6 Trigonometric Functions Wed Oct 21 Do Now Find the y’’ and y’’’ 1) 2)
4.1 Linear Approximations Thurs Jan 7
3.1 The Derivative Wed Oct 7 If f(x) = 2x^2 - 3, find the slope between the x values of 1 and 4.
DO NOW: Write each expression as a sum of powers of x:
4.1 Linear Approximations Mon Dec 21 Do Now Find the equation of the tangent line of each function at 1) Y = sinx 2) Y = cosx.
3.9 Exponential and Logarithmic Derivatives Mon Nov 9 Do Now Find the derivatives of: 1) 2)
5.6 Integration by Substitution Method (U-substitution) Thurs Dec 3 Do Now Find the derivative of.
5.6 Integration by Substitution Method (U-substitution) Fri Feb 5 Do Now Find the derivative of.
4.1 Linear Approximations Fri Oct 16 Do Now Find the equation of the tangent line of each function at 1) Y = sinx 2) Y = cosx.
3-5 Higher Derivatives Tues Oct 20 Do Now Find the velocity at t = 2 for each position function 1) 2)
4.6 Curve Sketching Fri Oct 23 Do Now Find intervals of increase/decrease, local max and mins, intervals of concavity, and inflection points of.
3.1 The Product and Quotient Rules & 3.2 The Chain Rule and the General Power Rule.
After the test… No calculator 3. Given the function defined by for a) State whether the function is even or odd. Justify. b) Find f’(x) c) Write an equation.
AP CALCULUS 1008 : Product and Quotient Rules. PRODUCT RULE FOR DERIVATIVES Product Rule: (In Words) ________________________________________________.
Powers and Exponents.
Inverse Trigonometric Functions: Differentiation & Integration (5. 6/5
3.8 Derivatives of Inverse Functions Wed Oct 5
§ 4.2 The Exponential Function e x.
PRODUCT & QUOTIENT RULES & HIGHER-ORDER DERIVATIVES (2.3)
Derivatives of Logarithmic Functions
Exponent Rules: Continued
Section 2-3b The Product Rule
3.6 Trigonometric Functions Tues Sept 27
The Quotient Rule The Quotient Rule is used to find derivatives for functions written as a fraction:
3.1 Polynomial & Exponential Derivatives
Derivative of an Exponential
Techniques of Differentiation
3-2 The Derivative Wed Oct 5
Product and Quotient Rules
2.4 The Chain Rule.
The Chain Rule Section 4 Notes.
1.3 Find a Limit Algebraically
2.1B Derivative Graphs & Differentiability
Math 180 Packet #20 Substitution.
Implicit Differentiation
31 – Power, Product, Quotient Rule No Calculator
6-1: Operations on Functions (+ – x ÷)
The Chain Rule (2.4) September 30th, 2016.
Lesson: Derivative Techniques -1
Presentation transcript:

3.3 Product Rule Tues Oct 27 Do Now Evaluate each 1) 2)

HW Review p odds 5)3x^2 -221) 7)6x23) 9) 0 11) 13) 15) -5x^(-3/2) -2 17) 19)

HW Review p evens 6) 8) 10) -4 12) 14) 16) 18) 20) 22)

Not the Product Rule Consider our derivative rules so far. We do not know the derivative if 2 terms are multiplied together Note: the derivative of a product is NOT the product of the derivatives:

Proof

Product Rule Thm- Suppose that f(x) and g(x) are differentiable at x. Then: Ex: y = x e^x

Ex 1 Use the product rule to find

Ex 2 Find f’(x) if

Ex 3 Find the derivative of the function

Closure Hand in: Compute the derivative of Using the product rule HW: p.147 #1-3, 5, 13, 14, 17

3.3 Quotient Rule Wed Oct 28 Do Now Use the product rule to find the derivative: 1) 2)

HW Review: p.147 # ) 2) 3) 5) 871/64 13) 14) 6x )

Quotient Rule Thm- Suppose that f and g are differentiable at x and g(x) not equal to 0, then: This is especially useful when we cannot simplify the fraction.

Ex 1 Find the derivative of

Ex 2 Find the derivative of

Ex 3 Find the tangent line to the graph of f(x) at x = 1

Cases where the Product and Quotient rules are not needed Sometimes, it’s easier to simplify and use the power rule instead of the product or quotient rule Ex:

Applications Remember that the derivative may be used to represent rates such as speed. Now that we can differentiate more complicated functions, we can now apply these to other types of rates. Ex 7

Closure Journal Entry: Write about the product and quotient rules. What are the formulas? How do we use them? Do we need to use them for every problem? HW: p.147 #7-11, 15, 23, 25

Practice Thurs Oct 29 Do Now Find the derivative of each 1) 2)

HW Review p.147 # )23) -80 8)25) -3/4 9) 8/9 10) 27/32 11) 15) 1

Derivative Review Power Rule Product Rule Quotient Rule

3.3 Practice Start in class #1-18. Complete for HW

Closure Find the derivative of: HW: Finish worksheet p.203 #1-18

HW Review: wkst p.203 #1-18 1) 4x + 1 2) 3) 4) 5) 6) 7) 8) 9) 10)

HW Review # ) -5/4 12) -1/6 13) 7/16 14) -7/4 15) ) 1/2 17) 0 18) 1