Presentation is loading. Please wait.

Presentation is loading. Please wait.

Differentiation The original function is the y- function – use it to find y values when you are given x Differentiate to find the derivative function or.

Published byEbony Helling Modified over 10 years ago

Similar presentations

Presentation on theme: "Differentiation The original function is the y- function – use it to find y values when you are given x Differentiate to find the derivative function or."— Presentation transcript:

1 Differentiation The original function is the y- function – use it to find y values when you are given x Differentiate to find the derivative function or ‘gradient’ function Use this to find the value of the gradient at any point x on the curve E.g. When

2

3 Gradient of a point or gradient of a tangent?

4 The equation of the tangent to a curve at a given point Find the equation of the tangent to the curve when x=3 Step 1: differentiate the function to get the gradient function Step 2: find the gradient of the tangent (i.e. the curve) when x=3 Step 3: find the y-coordinate when x=3 Step 4: Find the equation of the tangent (this is a straight line equation!) The Equation of a Tangent or of a Normal

5 1. Tangents a) b) 2. 3. Extension

6 1. 2. 3. 6 The Equation of a Tangent or of a Normal

7 Extension 7 The Equation of a Tangent or of a Normal

8 What is ‘normal’ in a Maths lesson?

9 The equation of the normal to a curve at a given point Find the equation of the normal to the curve at the point where x is -1 Step 1: differentiate the function to get the gradient function Step 2: find the gradient of the tangent (i.e. the curve) when x= -1 Step 4: find the y-coordinate when x= -1 Step 5: Find the equation of the normal (this is a straight line equation!) Step 3: find the gradient of the normal when x= -1 9 The Equation of a Tangent or of a Normal

10 Normals 10 The Equation of a Tangent or of a Normal

11 Gradient of a Curve Investigating further Copy this curve onto your whiteboard. Mark on to the graph where it has a positive gradient. Mark where it has a negative gradient If y stands for the distance travelled by a car and x stands for time, when is the car stationary?

Download ppt "Differentiation The original function is the y- function – use it to find y values when you are given x Differentiate to find the derivative function or."

Similar presentations

Quiz TUESDAY 3.1, 3.2 Find derivatives using original and alternate definition of the derivative Understanding the definition of derivative (examples 2.

Quiz TUESDAY 3.1, 3.2 Find derivatives using original and alternate definition of the derivative Understanding the definition of derivative (examples 2.
Basic Skills in Higher Mathematics Robert Glen Adviser in Mathematics Mathematics 1(H) Outcome 3.

Basic Skills in Higher Mathematics Robert Glen Adviser in Mathematics Mathematics 1(H) Outcome 3.
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.
Notes Over 10.3 r is the radius radius is 4 units

Notes Over 10.3 r is the radius radius is 4 units
C1: Tangents and Normals

C1: Tangents and Normals
Equation of a Tangent Line

Equation of a Tangent Line
Gradients and Tangents 7 - 1 = 6 Solution: 3 - 1 = 2 difference in the x -values difference in the y -values x x e.g. Find the gradient of the line joining.

Gradients and Tangents = 6 Solution: = 2 difference in the x -values difference in the y -values x x e.g. Find the gradient of the line joining.
Equations of Tangent Lines

Equations of Tangent Lines
Introduction to Differentiation Motion Graphs. Travel Graph Describe what is happening at each stage of this travel graph. 1 2 3 4 5.

Introduction to Differentiation Motion Graphs. Travel Graph Describe what is happening at each stage of this travel graph
Find the slope of the tangent line to the graph of f at the point ( - 1, 10 ). f ( x ) = 6 - 4x 1234567891011121314151617181920 2122232425262728293031323334353637383940.

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

Nuffield Free-Standing Mathematics Activity
Point Value : 20 Time limit : 2 min #1 Find. #1 Point Value : 30 Time limit : 2.5 min #2 Find.

Point Value : 20 Time limit : 2 min #1 Find. #1 Point Value : 30 Time limit : 2.5 min #2 Find.
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.
DIFFERENTIATION & INTEGRATION CHAPTER 4.  Differentiation is the process of finding the derivative of a function.  Derivative of INTRODUCTION TO DIFFERENTIATION.

DIFFERENTIATION & INTEGRATION CHAPTER 4.  Differentiation is the process of finding the derivative of a function.  Derivative of INTRODUCTION TO DIFFERENTIATION.
Try out the starter Change them into Indices… …then differentitate!!!

Try out the starter Change them into Indices… …then differentitate!!!
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.
Implicit Differentiation. Objectives Students will be able to Calculate derivative of function defined implicitly. Determine the slope of the tangent.

Implicit Differentiation. Objectives Students will be able to Calculate derivative of function defined implicitly. Determine the slope of the tangent.
IGCSE Revision Lesson 3 I can calculate the gradient of a straight line from the co-ordinates of two points on it I can calculate the length and the co-ordinates.

IGCSE Revision Lesson 3 I can calculate the gradient of a straight line from the co-ordinates of two points on it I can calculate the length and the co-ordinates.
Chapter 14 Section 14.3 Curves. x y z To get the equation of the line we need to know two things, a direction vector d and a point on the line P. To find.

Chapter 14 Section 14.3 Curves. x y z To get the equation of the line we need to know two things, a direction vector d and a point on the line P. To find.
 By River, Gage, Travis, and Jack. Sections Chapter 6  6.1- Introduction to Differentiation (Gage)  6.2 - The Gradient Function (Gage)  6.3 - Calculating.

 By River, Gage, Travis, and Jack. Sections Chapter 6  6.1- Introduction to Differentiation (Gage)  The Gradient Function (Gage)  Calculating.

Similar presentations

Ads by Google