Presentation is loading. Please wait.

Presentation is loading. Please wait.

Lecture 5: Jacobians In 1D problems we are used to a simple change of variables, e.g. from x to u 1D Jacobian maps strips of width dx to strips of width.

Published byAmelia Trulove Modified over 10 years ago

Similar presentations

Presentation on theme: "Lecture 5: Jacobians In 1D problems we are used to a simple change of variables, e.g. from x to u 1D Jacobian maps strips of width dx to strips of width."— Presentation transcript:

1 Lecture 5: Jacobians In 1D problems we are used to a simple change of variables, e.g. from x to u 1D Jacobian maps strips of width dx to strips of width du Example: Substitute

2 2D Jacobian For a continuous 1-to-1 transformation from (x,y) to (u,v)
Then Where Region (in the xy plane) maps onto region in the uv plane Hereafter call such terms etc 2D Jacobian maps areas dxdy to areas dudv

3 Why the 2D Jacobian works
Transformation T yield distorted grid of lines of constant u and constant v For small du and dv, rectangles map onto parallelograms This is a Jacobian, i.e. the determinant of the Jacobian Matrix

4 Relation between Jacobians
The Jacobian matrix is the inverse matrix of i.e., Because (and similarly for dy) This makes sense because Jacobians measure the relative areas of dxdy and dudv, i.e So

5 Simple 2D Example Area of circle A= r

6 Harder 2D Example where R is this region of the xy plane, which maps to R’ here 1 4 8 9

7 An Important 2D Example Evaluate First consider Put as a -a a -a

8 3D Jacobian maps volumes (consisting of small cubes of volume
to small cubes of volume Where

9 3D Example Transformation of volume elements between Cartesian and spherical polar coordinate systems (see Lecture 4)

Download ppt "Lecture 5: Jacobians In 1D problems we are used to a simple change of variables, e.g. from x to u 1D Jacobian maps strips of width dx to strips of width."

Similar presentations

MATHEMATICS-I.

MATHEMATICS-I.
3.5 Two dimensional problems Cylindrical symmetry Conformal mapping.

3.5 Two dimensional problems Cylindrical symmetry Conformal mapping.
Lecture 6: Surface Integrals Recall, area is a vector (0,1,0) (1,0,0) x y z (1,0,1) (0,1,1) Vector area of this surface is which has sensible magnitude.

Lecture 6: Surface Integrals Recall, area is a vector (0,1,0) (1,0,0) x y z (1,0,1) (0,1,1) Vector area of this surface is which has sensible magnitude.
Lecture 2eee3401 Chapter 2 Coordinate Systems 1)Cartesian (rectangular) 2)Circular cylindrical 3)Spherical 4)Others (elliptic cylindrical, conical,…) A.

Lecture 2eee3401 Chapter 2 Coordinate Systems 1)Cartesian (rectangular) 2)Circular cylindrical 3)Spherical 4)Others (elliptic cylindrical, conical,…) A.
2006 Fall MATH 100 Lecture 81 MATH 100 Lecture 19 Triple Integral in cylindrical & spherical coordinate Class 19 Triple Integral in cylindrical & spherical.

2006 Fall MATH 100 Lecture 81 MATH 100 Lecture 19 Triple Integral in cylindrical & spherical coordinate Class 19 Triple Integral in cylindrical & spherical.
16.360 Lecture 15 Today Transformations between coordinate systems 1.Cartesian to cylindrical transformations 2.Cartesian to spherical transformations.

Lecture 15 Today Transformations between coordinate systems 1.Cartesian to cylindrical transformations 2.Cartesian to spherical transformations.
For each point (x,y,z) in R3, the cylindrical coordinates (r,,z) are defined by the polar coordinates r and  (for x and y) together with z. Example Find.

For each point (x,y,z) in R3, the cylindrical coordinates (r,,z) are defined by the polar coordinates r and  (for x and y) together with z. Example Find.
4.5 Determinants and Cramer’s Rule. Objectives Evaluate a determinant of a 2 x 2 matrix. Use Cramer’s rule for linear equations.

4.5 Determinants and Cramer’s Rule. Objectives Evaluate a determinant of a 2 x 2 matrix. Use Cramer’s rule for linear equations.
MULTIPLE INTEGRALS 16. 2 MULTIPLE INTEGRALS 16.9 Change of Variables in Multiple Integrals In this section, we will learn about: The change of variables.

MULTIPLE INTEGRALS MULTIPLE INTEGRALS 16.9 Change of Variables in Multiple Integrals In this section, we will learn about: The change of variables.
Chapter 15 – Multiple Integrals

Chapter 15 – Multiple Integrals
Chapter 12-Multiple Integrals Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved.

Chapter 12-Multiple Integrals Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved.
Copyright © Cengage Learning. All rights reserved. 15 Multiple Integrals.

Copyright © Cengage Learning. All rights reserved. 15 Multiple Integrals.
Multiple Integrals 12. Surface Area 12.6 3 Surface Area In this section we apply double integrals to the problem of computing the area of a surface.

Multiple Integrals 12. Surface Area Surface Area In this section we apply double integrals to the problem of computing the area of a surface.
16.360 Lecture 14 Today Orthogonal coordinate systems 1.The Cartesian (rectangular) coordinate system 2.The cylindrical coordinate system 3.The spherical.

Lecture 14 Today Orthogonal coordinate systems 1.The Cartesian (rectangular) coordinate system 2.The cylindrical coordinate system 3.The spherical.
Lesson 4 Review of Vectors and Matrices. Vectors A vector is normally expressed as or in terms of unit vectors likewise.

Lesson 4 Review of Vectors and Matrices. Vectors A vector is normally expressed as or in terms of unit vectors likewise.
Triple Integral in Spherical Coordinates

Triple Integral in Spherical Coordinates
Vector calculus 1)Differential length, area and volume

Vector calculus 1)Differential length, area and volume
ELEN 3371 Electromagnetics Fall 2007 1 Lecture 2: Review of Vector Calculus Instructor: Dr. Gleb V. Tcheslavski Contact:

ELEN 3371 Electromagnetics Fall Lecture 2: Review of Vector Calculus Instructor: Dr. Gleb V. Tcheslavski Contact:
MA 242.003 Day 45 – March 18, 2013 Section 9.7: Cylindrical Coordinates Section 12.8: Triple Integrals in Cylindrical Coordinates.

MA Day 45 – March 18, 2013 Section 9.7: Cylindrical Coordinates Section 12.8: Triple Integrals in Cylindrical Coordinates.
Whiteboardmaths.com © 2011 All rights reserved 5 7 2 1.

Whiteboardmaths.com © 2011 All rights reserved

Similar presentations

Ads by Google