Discovering the Chain Rule

Slides:

Advertisements

Similar presentations

Lines, Lines, Lines!!! ~ Horizontal Lines Vertical Lines.

Advertisements

Equations of Tangent Lines

Find the slope of the tangent line to the graph of f at the point ( - 1, 10 ). f ( x ) = 6 - 4x

DERIVATIVES 3. DERIVATIVES In this chapter, we begin our study of differential calculus.  This is concerned with how one quantity changes in relation.

Calculus 2413 Ch 3 Section 1 Slope, Tangent Lines, and Derivatives.

The Derivative Eric Hoffman Calculus PLHS Sept

Determining secant slope and tangent slope. Slope is the rate of change or Secant slope the slope between two points tangent slope the slope at one point.

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

8.4 Distance and Slope BobsMathClass.Com Copyright © 2010 All Rights Reserved. 1 This is a derivation of the Pythagorean Theorem and can be used to find.

Lesson 1-3 Formulas Lesson 1-3: Formulas.

The Derivative. Definition Example (1) Find the derivative of f(x) = 4 at any point x.

3.5 – Derivative of Trigonometric Functions

M 112 Short Course in Calculus Chapter 2 – Rate of Change: The Derivative Sections 2.5 – Marginal Cost and Revenue V. J. Motto.

Equation of the Line Straight Lines Mr. J McCarthy.

The Derivative. Definition Example (1) Find the derivative of f(x) = 4 at any point x.

Derivatives By Mendy Kahan & Jared Friedman. What is a Derivative? Let ’ s say we were given some function called “ f ” and the derivative of that function.

The Tangent and Velocity Problem © John Seims (2008)

Chapter 3.1 Tangents and the Derivative at a Point.

x y Straight Line Graphs m gives the gradient of the line and.

These lines look pretty different, don't they?

Powerpoint Templates Page 1 Powerpoint Templates Review Calculus.

Implicit Differentiation. Objective To find derivatives implicitly. To find derivatives implicitly.

Slope (Finding it from two points and from a table.)

Graphing Equations Slope Intercept form and Point Slope form.

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.

Implicit differentiation (2.5) October 29th, 2012.

2.1 The Derivative and The Tangent Line Problem Slope of a Tangent Line.

Derivative Shortcuts -Power Rule -Product Rule -Quotient Rule -Chain Rule.

Zooming In. Objectives  To define the slope of a function at a point by zooming in on that point.  To see examples where the slope is not defined. 

If f (x) is continuous over [ a, b ] and differentiable in (a,b), then at some point, c, between a and b : Mean Value Theorem for Derivatives.

Slope intercept form.  The slope intercept form of a line is:  y = m x + b.

2.1 The Derivative and the Tangent Line Problem Objectives: -Students will find the slope of the tangent line to a curve at a point -Students will use.

2014 AB FRQ #3 By Philip Schnee. For this problem, you are given that g(x) is the integral of f(x), which is graphed, from -3 to x. To find g(3), you.

Mathematics Medicine The Derived Function.

Calculus Section 3.1 Calculate the derivative of a function using the limit definition Recall: The slope of a line is given by the formula m = y 2 – y.

Since all points on the x-axis have a y-coordinate of 0, to find x-intercept, let y = 0 and solve for x Since all points on the y-axis have an x-coordinate.

Slope-Intercept and Standard Form of a Linear Equation.

Slope 8.4C Use data from a table or graph to determine the rate of change or slope and y-intercept.

Section 11.3A Introduction to Derivatives

Used for composite functions

Find the equation of the tangent line to the curve y = 1 / x that is parallel to the secant line which runs through the points on the curve with x - coordinates.

3.6 Chain Rule.

Linear Equations and Functions Words to Know

THE DERIVATIVE AND THE TANGENT LINE PROBLEM

Graphing Linear Equations

12/1/2018 Lesson 1-3 Formulas Lesson 1-3: Formulas.

F’ means derivative or in this case slope.

2.1 The Derivative and the Slope of a Graph

Tangent line to a curve Definition: line that passes through a given point and has a slope that is the same as the.

2.7/2.8 Tangent Lines & Derivatives

Derivatives: definition and derivatives of various functions

Slope Intercept Form & Graphing

Writing Linear Equations Given Two Points

Graphing Linear Equations

MATH 1314 Lesson 6: Derivatives.

The Chain Rule Section 3.4.

13. 2 Derivatives of functions given parametrically

Functions in the Coordinate Plane

Slope is: How steep a line is m Rise over Run All of the above

The Chain Rule Section 2.4.

Y X Equation of Lines.

Ch 4.2 & 4.3 Slope-Intercept Method

Presentation transcript:

Discovering the Chain Rule By John Zacharias

Given a function , and a second function , . . .

. . . let’s find the derivative of at the point where .

First, let’s add the line .

Now let’s go straight up from on the x-axis.

What are the coordinates of this point?

Now let’s go straight to the right from the last point . . .

What are the coordinates of this point?

What are the coordinates of this point?

Next, let’s go straight down from the last point . . .

What are the coordinates of this point?

Next, let’s go straight to the left from the last point. . .

What are the coordinates of this point?

We have found our first point on the graph of the composite function.

Next let’s find a second, nearby point. . .

Start by picking a point on the x-axis near our first point . . .

Let’s go straight up from this point on the x-axis . . .

What are the coordinates of this point?

Let’s go straight to the right from the last point . . .

What are the coordinates of this point?

What are the coordinates of this point?

Let’s go straight down from the last point . . .

What are the coordinates of this point?

Next let’s go straight to the left from the last point . . .

What are the coordinates of this point?

And this is our second point on the composite function.

Now let’s figure out the slope of the line between these points.

Let’s go straight right from our first point on the composite function . . .

What are the coordinates of this point?

Now let’s go straight to the right from the second point.

What are the coordinates of this point?

Let’s go right from the first point and down from the second point.

Let’s focus on part of this figure.

As h approaches 0, the slope of the secant…

. . . approaches the slope of the tangent.

rise run So, the rise over the run at the limit will equal

rise run The derivative of f at x = g(a).

rise run The run is the difference in the x coordinates.

rise run And since rise / run we must have

rise Let’s bring back the other elements of the picture.

rise What is the slope of the secant of the composition function?

rise The rise is the same.

rise The rise is the same.

rise The rise is the same.

rise The rise is the same.

rise run = h The run is

rise run = h The slope of the secant is rise / run

rise run = h Which in the limit is