Presentation is loading. Please wait.

Presentation is loading. Please wait.

Newton’s Divided Difference Polynomial Method of Interpolation

Published byKatie Trowbridge Modified over 9 years ago

Similar presentations

Presentation on theme: "Newton’s Divided Difference Polynomial Method of Interpolation"— Presentation transcript:

1 Newton’s Divided Difference Polynomial Method of Interpolation

2 Newton’s Divided Difference Method
Linear interpolation: Given pass a linear interpolant through the data where

3 Figure 2: Velocity vs. time data
Example The upward velocity of a rocket is given as a function of time in Table 1. Find the velocity at t=16 seconds using the Newton Divided Difference method for linear interpolation. t v(t) s m/s 10 227.04 15 362.78 20 517.35 22.5 602.97 30 901.67 Figure 2: Velocity vs. time data for the rocket example Table 1: Velocity as a function of time

4 Linear Interpolation

5 Linear Interpolation (contd)

6 Quadratic Interpolation

7 Figure 2: Velocity vs. time data
Example The upward velocity of a rocket is given as a function of time in Table 1. Find the velocity at t=16 seconds using the Newton Divided Difference method for quadratic interpolation. t v(t) s m/s 10 227.04 15 362.78 20 517.35 22.5 602.97 30 901.67 Figure 2: Velocity vs. time data for the rocket example Table 1: Velocity as a function of time

8 Quadratic Interpolation (contd)

9 Quadratic Interpolation (contd)

10 Quadratic Interpolation (contd)

11 General Form where Rewriting

12 General Form

13 General form

14 Figure 2: Velocity vs. time data
Example The upward velocity of a rocket is given as a function of time in Table 1. Find the velocity at t=16 seconds using the Newton Divided Difference method for cubic interpolation. t v(t) s m/s 10 227.04 15 362.78 20 517.35 22.5 602.97 30 901.67 Figure 2: Velocity vs. time data for the rocket example Table 1: Velocity as a function of time

15 Example The velocity profile is chosen as
we need to choose four data points that are closest to

16 Example

17 Example

18 Comparison Table

19 Latihan Misalkan Nilai-nilai fungsi seperti pada tabel berikut, tentukanlah nilai aproksimasi dari f(0,1), f(0,35), dan f(1,16) berturut-turut menggunakan interpolasi beda terbagi Newton linear, kuadratik, kubik. x f(x) 0,0 0,000 0,2 0,406 0,4 0,846 0,6 1,368 0,8 2,060 1,0 3,114 1,2 5,114

20 Distance from Velocity Profile
Find the distance covered by the rocket from t=11s to t=16s ?

21 Acceleration from Velocity Profile
Find the acceleration of the rocket at t=16s given that

Download ppt "Newton’s Divided Difference Polynomial Method of Interpolation"

Similar presentations

Copyright © 2009 Pearson Education, Inc. Publishing as Pearson Addison-Wesley Introduction to Graphing The Rectangular Coordinate System Scatterplots.

Copyright © 2009 Pearson Education, Inc. Publishing as Pearson Addison-Wesley Introduction to Graphing The Rectangular Coordinate System Scatterplots.
You have been given a mission and a code. Use the code to complete the mission and you will save the world from obliteration…

You have been given a mission and a code. Use the code to complete the mission and you will save the world from obliteration…
Copyright © 2003 Pearson Education, Inc. Slide 1 Computer Systems Organization & Architecture Chapters 8-12 John D. Carpinelli.

Copyright © 2003 Pearson Education, Inc. Slide 1 Computer Systems Organization & Architecture Chapters 8-12 John D. Carpinelli.
Chapter 1 The Study of Body Function Image PowerPoint

Chapter 1 The Study of Body Function Image PowerPoint
1 Copyright © 2013 Elsevier Inc. All rights reserved. Chapter 38.

1 Copyright © 2013 Elsevier Inc. All rights reserved. Chapter 38.
By D. Fisher Geometric Transformations. Reflection, Rotation, or Translation 1.

By D. Fisher Geometric Transformations. Reflection, Rotation, or Translation 1.
Properties Use, share, or modify this drill on mathematic properties. There is too much material for a single class, so you’ll have to select for your.

Properties Use, share, or modify this drill on mathematic properties. There is too much material for a single class, so you’ll have to select for your.
Chapter 1 Image Slides Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Chapter 1 Image Slides Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13

Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13
Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13

Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13
Title Subtitle.

Title Subtitle.
Multiplication Facts Review. 6 x 4 = 24 5 x 5 = 25.

Multiplication Facts Review. 6 x 4 = 24 5 x 5 = 25.
(x + 4)(x + 7) = x2 + 11x + 28 (x + 14)(x + 2) = x2 + 16x + 28

(x + 4)(x + 7) = x2 + 11x + 28 (x + 14)(x + 2) = x2 + 16x + 28
1 1  1 =.

1 1  1 =.
2 pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt Time Money AdditionSubtraction.

2 pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt Time Money AdditionSubtraction.
DIVIDING INTEGERS 1. IF THE SIGNS ARE THE SAME THE ANSWER IS POSITIVE 2. IF THE SIGNS ARE DIFFERENT THE ANSWER IS NEGATIVE.

DIVIDING INTEGERS 1. IF THE SIGNS ARE THE SAME THE ANSWER IS POSITIVE 2. IF THE SIGNS ARE DIFFERENT THE ANSWER IS NEGATIVE.
Learning to show the remainder

Learning to show the remainder
C1 Sequences and series. Write down the first 4 terms of the sequence u n+1 =u n +6, u 1 =6 6, 12, 18, 24.

C1 Sequences and series. Write down the first 4 terms of the sequence u n+1 =u n +6, u 1 =6 6, 12, 18, 24.
31.03.2011-ZMQS- 1. 2 31.03.2011 -ZMQS- 3 31.03.2011.

ZMQS ZMQS
6/1/2014 1 Runge 4 th Order Method Industrial Engineering Majors Authors: Autar Kaw, Charlie Barker

6/1/ Runge 4 th Order Method Industrial Engineering Majors Authors: Autar Kaw, Charlie Barker

Similar presentations

Ads by Google