Presentation is loading. Please wait.

Presentation is loading. Please wait.

Section 11.3A Introduction to Derivatives

Published byShannon Pitts Modified over 6 years ago

Similar presentations

Presentation on theme: "Section 11.3A Introduction to Derivatives"— Presentation transcript:

1 Section 11.3A Introduction to Derivatives
Tangent line to a graph: For a line, the slope is always the same. For a curve however, the slope is constantly changing. The tangent line approximates the slope at a given point on the graph of a function.

2 Ex 1: Approximate the slope of f (x) = x2 at (1,1).

3 Secant line: A secant line is a line that intersects 2 points on the graph of a function. Think slope: The tangent line is the value of the slope when x2 = x1, but this is undefined so we consider the limit of the ratio as x2  x1.

4 Remember slope: We will let h = x2 – x1, then as x2  x1, h  0. The slope m of the graph of f at the point (x,f (x)) is equal to the slope of its tangent line at the point and is given by: provided the limit exists.

5 The slope m of the graph of f at the point (x,f (x))
The slope m of the graph of f at the point (x,f (x)) is equal to the slope of its tangent line at the point and is given by: provided the limit exists.

6 Ex 3: Find the slope of f (x) = x2 at (-2,4).
Ex 4: Find the formula for the slope of f (x) = -2x + 4. Ex 5: Find the formula for the slope of f (x) = x2 + 1, then find the slope at (-1,2) and (2,5).

7 Suggested Assignment:
Section 11.3A pg 770 #1 – 18

Download ppt "Section 11.3A Introduction to Derivatives"

Similar presentations

Remember: Derivative=Slope of the Tangent Line.

Remember: Derivative=Slope of the Tangent Line.
Tangent Lines ( Sections 1.4 and 2.1 ) Alex Karassev.

Tangent Lines ( Sections 1.4 and 2.1 ) Alex Karassev.
2.1 Derivatives and Rates of Change. The slope of a line is given by: The slope of the tangent to f(x)=x 2 at (1,1) can be approximated by the slope of.

2.1 Derivatives and Rates of Change. The slope of a line is given by: The slope of the tangent to f(x)=x 2 at (1,1) can be approximated by the slope of.
Derivative and the Tangent Line Problem

Derivative and the Tangent Line Problem
Aim: What do slope, tangent and the derivative have to do with each other? Do Now: What is the equation of the line tangent to the circle at point (7,

Aim: What do slope, tangent and the derivative have to do with each other? Do Now: What is the equation of the line tangent to the circle at point (7,
Equations of Tangent Lines

Equations of Tangent Lines
Limits and an Introduction to Calculus

Limits and an Introduction to Calculus
The derivative and the tangent line problem (2.1) October 8th, 2012.

The derivative and the tangent line problem (2.1) October 8th, 2012.
Calculus 2413 Ch 3 Section 1 Slope, Tangent Lines, and Derivatives.

Calculus 2413 Ch 3 Section 1 Slope, Tangent Lines, and Derivatives.
Calculus 2.1 Introduction to Differentiation

Calculus 2.1 Introduction to Differentiation
The Derivative Eric Hoffman Calculus PLHS Sept. 2007.

The Derivative Eric Hoffman Calculus PLHS Sept
Sec. 2.1: The Derivative and the Tangent Line

Sec. 2.1: The Derivative and the Tangent Line
The Derivative Chapter 3:. What is a derivative? A mathematical tool for studying the rate at which one quantity changes relative to another.

The Derivative Chapter 3:. What is a derivative? A mathematical tool for studying the rate at which one quantity changes relative to another.
Derivative Review Part 1 3.3,3.5,3.6,3.8,3.9. Find the derivative of the function p. 181 #1.

Derivative Review Part 1 3.3,3.5,3.6,3.8,3.9. Find the derivative of the function p. 181 #1.
Derivatives - Equation of the Tangent Line Now that we can find the slope of the tangent line of a function at a given point, we need to find the equation.

Derivatives - Equation of the Tangent Line Now that we can find the slope of the tangent line of a function at a given point, we need to find the equation.
THE DERIVATIVE AND THE TANGENT LINE PROBLEM

THE DERIVATIVE AND THE TANGENT LINE PROBLEM
1.3-1.4.  Total Change/Length of the interval  Δy/Δx  Average rate of change is the slope of the secant line.

 Total Change/Length of the interval  Δy/Δx  Average rate of change is the slope of the secant line.
Every slope is a derivative. Velocity = slope of the tangent line to a position vs. time graph Acceleration = slope of the velocity vs. time graph How.

Every slope is a derivative. Velocity = slope of the tangent line to a position vs. time graph Acceleration = slope of the velocity vs. time graph How.
Mrs. Rivas International Studies Charter School.Objectives: slopes and equations 1.Find slopes and equations of tangent lines. derivative of a function.

Mrs. Rivas International Studies Charter School.Objectives: slopes and equations 1.Find slopes and equations of tangent lines. derivative of a function.
Introduction To Slope. Slope is a measure of Steepness.

Introduction To Slope. Slope is a measure of Steepness.

Similar presentations

Ads by Google