AP Calculus Honors Ms. Olifer

Slides:

Advertisements

Similar presentations

CHAPTER Continuity CHAPTER Derivatives of Polynomials and Exponential Functions.

Advertisements

3.3 Techniques of Differentiation Derivative of a Constant (page 191) The derivative of a constant function is 0.

3.3 Rules for Differentiation. What you’ll learn about Positive Integer Powers, Multiples, Sums and Differences Products and Quotients Negative Integer.

Chapter 3: Derivatives Section 3.3: Rules for Differentiation

Slide 3- 1 Rule 1 Derivative of a Constant Function.

Techniques of Differentiation. I. Positive Integer Powers, Multiples, Sums, and Differences A.) Th: If f(x) is a constant, B.) Th: The Power Rule: If.

3.3 Rules for Differentiation What you’ll learn about Positive integer powers, multiples, sums, and differences Products and Quotients Negative Integer.

3.3 Rules for Differentiation Quick Review In Exercises 1 – 6, write the expression as a power of x.

3.3 Rules for Differentiation Positive Integer Powers, Multiples, Sums and Differences Products and Quotients Negative Integer Powers of x Second and Higher.

Techniques of Differentiation. I. Positive Integer Powers, Multiples, Sums, and Differences A.) Th: If f(x) is a constant, B.) Th: The Power Rule: If.

Copyright © 2007 Pearson Education, Inc. Publishing as Pearson Prentice Hall Rules for Differentiation Section 3.3.

Differentiating “Combined” Functions ---Part I Constant Multiples, Sums and Differences.

Sec 3.3: Differentiation Rules Example: Constant function.

AP CALCULUS 1009 : Product and Quotient Rules. PRODUCT RULE FOR DERIVATIVES Product Rule: (In Words) ________________________________________________.

Copyright © 2007 Pearson Education, Inc. Publishing as Pearson Prentice Hall 2.3 Product and Quotient Rules for Differentiation.

SAT Prep. Basic Differentiation Rules and Rates of Change Find the derivative of a function using the Constant Rule Find the derivative of a function.

AP Calculus Chapter 3 Section 3

DO NOW: Write each expression as a sum of powers of x:

Calculus I Ms. Plata Fortunately, several rules have been developed for finding derivatives without having to use the definition directly. Why?

Copyright © 2007 Pearson Education, Inc. Publishing as Pearson Prentice Hall Slide 3- 1 Quick Review.

2.3 Basic Differentiation Formulas

AP Calculus 3.2 Basic Differentiation Rules Objective: Know and apply the basic rules of differentiation Constant Rule Power Rule Sum and Difference Rule.

Basic derivation rules We will generally have to confront not only the functions presented above, but also combinations of these : multiples, sums, products,

Interesting Integers – Part Dos

2.3 Geometrical Application of Calculus

Rules for Differentiation

Product and Quotient Rules

3-3 rules for differentiation

AP Calculus BC September 12, 2016.

Chapter 5 The Definite Integral. Chapter 5 The Definite Integral.

DO NOW Find the derivative of each function below using either the product rule or the quotient rule. Do not simplify answers.

Definite Integrals and Antiderivatives

2.3 Basic Differentiation Formulas

Objective: To Divide Integers

AP Calculus Honors Ms. Olifer

Section 3.9 Derivatives of Exponential and Logarithmic Functions

Multiplying Integers.

2.2 Rules for Differentiation

Rules for Differentiation

Rules for Differentiation

Differentiation Rules (Constant, Power, Sum, Difference)

Sec 3.1: DERIVATIVES of Polynomial and Exponential

Chain Rule AP Calculus.

Multiplying Integers The product of two positive or two negative integers is positive. The product of a positive integer and a negative integer is negative.

Fundamental Theorem of Calculus

LIMITS … oh yeah, Calculus has its limits!

AP Calculus Honors Ms. Olifer

Lesson 3.3: Rules for Differentiability

= ? A quicker way of writing this is 4 x -3, 4 lots of -3. So 4 x -3 = -12.

AP Calculus Honors Ms. Olifer

Differentiation Rules

AP Calculus Honors Ms. Olifer

Day 6 – Tangent Lines and Derivatives

AP Calculus Honors Ms. Olifer

Derivative of a Function AP Calculus Honors Ms. Olifer

Section 5.3 Definite Integrals and Antiderivatives

Mean-Value Theorem for Integrals

Section 2.3 Day 1 Product & Quotient Rules & Higher order Derivatives

Product and Quotient Rules and Higher Order Derivatives

Derivatives of Trigonometric Functions AP Calculus Honors Ms. Olifer

AP Calculus Honors Ms. Olifer

Rules for Differentiation

Chapter 6 Applications of Derivatives Section 6.2 Definite Integrals.

Section 3.7 Implicit Differentiation

Estimating with Finite Sums

Section 5.2 Definite Integrals

Mean Value Theorem AP Calculus Ms. Olifer.

Multiplication and Division of Integers

Integer Exponents 2.1.

Applied Calculus CH3 Part II Formative

Presentation transcript:

AP Calculus Honors Ms. Olifer Rules for Differentiation AP Calculus Honors Ms. Olifer

What you’ll learn about Positive Integer Powers, Multiples, Sums and Differences Products and Quotients Negative Integer Powers of x Second and Higher Order Derivatives … and why These rules help us find derivatives of functions analytically in a more efficient way.

FINALLY!!!

Rule 1 Derivative of a Constant Function

Rule 2 Power Rule for Positive Integer Powers of x.

Rule 3 The Constant Multiple Rule

Rule 4 The Sum and Difference Rule

Example Positive Integer Powers, Multiples, Sums, and Differences

Example Positive Integer Powers, Multiples, Sums, and Differences

Rule 5 The Product Rule

Example Using the Product Rule

Rule 6 The Quotient Rule

Example Using the Quotient Rule

Rule 7 Power Rule for Negative Integer Powers of x

Example Negative Integer Powers of x

Second and Higher Order Derivatives

Second and Higher Order Derivatives