Divergence and Curl of Electrostatic Fields Field of a point charge arrowsfield lines:

Slides:

Advertisements

Similar presentations

Electricity & Magnetism

Advertisements

Announcements Monday guest lecturer: Dr. Fred Salsbury. Solutions now available online. Will strive to post lecture notes before class. May be different.

Gauss’ Law AP Physics C.

The electric flux may not be uniform throughout a particular region of space. We can determine the total electric flux by examining a portion of the electric.

Applications of Gauss’s Law

Copyright © 2009 Pearson Education, Inc. Chapter 21 Electric Charge and Electric Field.

Chapter 2 Electrostatics 2.0 New Notations 2.1 The Electrostatic Field 2.2 Divergence and Curl of Electrostatic Field 2.3 Electric Potential 2.4 Work and.

EE3321 ELECTROMAGENTIC FIELD THEORY

Chapter 23: Gauss’s Law Gauss’s Law is an alternative formulation of the relation between an electric field and the sources of that field in terms of electric.

Oregon State University PH 213, Class #8

Electricity Electric Flux and Gauss’s Law 1 Electric Flux Gauss’s Law Electric Field of Spheres Other Gaussian Surfaces Point Charges and Spheres.

1/18/07184 Lecture 71 PHY 184 Spring 2007 Lecture 7 Title: Using Gauss’ law.

Chapter 22 Gauss’s Law Electric charge and flux (sec & .3)

Chapter 22 Gauss’s Law Electric charge and flux (sec &.3) Gauss’s Law (sec &.5) Charges on conductors(sec. 22.6) C 2012 J. Becker.

Nadiah Alanazi Gauss’s Law 24.3 Application of Gauss’s Law to Various Charge Distributions.

Apply Gauss’s law 2. Choose Gaussian surface so that E can be taken out of integration: explore the symmetry of E Symmetry of EGaussian Surface Spherical.

Charles Allison © 2000 Chapter 22 Gauss’s Law HW# 5 : Chap.22: Pb.1, Pb.6, Pb.24, Pb.27, Pb.35, Pb.46 Due Friday: Friday, Feb 27.

Electricity & Magnetism Seb Oliver Lecture 6: Gauss’s Law.

Summer July Lecture 3 Gauss’s Law Chp. 24 Cartoon - Electric field is analogous to gravitational field Opening Demo - Warm-up problem Physlet /webphysics.davidson.edu/physletprob/webphysics.davidson.edu/physletprob.

Gauss’s Law The electric flux through a closed surface is proportional to the charge enclosed The electric flux through a closed surface is proportional.

Definitions Flux—The rate of flow through an area or volume. It can also be viewed as the product of an area and the vector field across the area Electric.

Chapter 21 Gauss’s Law. Electric Field Lines Electric field lines (convenient for visualizing electric field patterns) – lines pointing in the direction.

Electricity and Magnetism Review 1: Units 1-6

Electric Flux and Gauss Law

Dr. Jie ZouPHY Chapter 24 Gauss’s Law (cont.)

Chapter 24 Gauss’s Law. Let’s return to the field lines and consider the flux through a surface. The number of lines per unit area is proportional to.

Chapter 27. A uniformly charged rod has a finite length L. The rod is symmetric under rotations about the axis and under reflection in any plane containing.

22 Electric Field II Covering sections 1-5 (omit section 6)

CHAPTER 24 : GAUSS’S LAW 24.1) ELECTRIC FLUX

Copyright © 2008 Pearson Education, Inc., publishing as Pearson Addison-Wesley. Chapter 28. Gauss’s Law The nearly spherical shape of the girl’s head determines.

Copyright © 2009 Pearson Education, Inc. Chapter 22 Gauss’s Law.

ELECTRICITY PHY1013S GAUSS’S LAW Gregor Leigh

Tue. Feb. 3 – Physics Lecture #26 Gauss’s Law II: Gauss’s Law, Symmetry, and Conductors 1. Electric Field Vectors and Electric Field Lines 2. Electric.

A b c. Choose either or And E constant over surface is just the area of the Gaussian surface over which we are integrating. Gauss’ Law This equation can.

Physics 2102 Gauss’ law Physics 2102 Gabriela González Carl Friedrich Gauss

Gauss’s law This lecture was given mostly on the board so these slides are only a guide to what was done.

Physics 2113 Lecture: 09 MON 14 SEP

Unit 1 Day 11: Applications of Gauss’s Law Spherical Conducting Shell A Long Uniform Line of Charge An Infinitely Large, Thin Plane of Charge Experimental.

Chapter 28 Gauss’s Law 28.1 to 28.4.

Guided by Presented By:- Mr. Saurabh patel 5 TH SEM EC Professor (HOD) Parshad Joshi( ) NSIT, Jetalpur Tirthal Patel ( ) Maniratnam.

Copyright © 2009 Pearson Education, Inc. Applications of Gauss’s Law.

24.2 Gauss’s Law.

Oregon State University PH 213, Class #8

Physics 212 Lecture 4 Gauss’ Law.

Gauss’s Law Chapter 24.

Physics 2102 Lecture: 06 MON 26 JAN 08

Problem-Solving Guide for Gauss’s Law

Electric flux, Gauss’s law

Electric flux, Gauss’s law

Quizzes 3 A cube with 1.40 m edges is oriented as shown in the figure

Chapter 23 Electric Potential

Last Lectures This lecture Gauss’s law Using Gauss’s law for:

Flux Capacitor (Operational)

TOPIC 3 Gauss’s Law.

Flux Capacitor (Schematic)

Gauss’ Law AP Physics C.

Symmetry Some charge distributions have translational, rotational, or reflective symmetry. If this is the case, we can determine something about the field.

Gauss’s Law Chapter 24.

Last Lectures This lecture Gauss’s law Using Gauss’s law for:

Gauss’ Law AP Physics C.

Quiz 1 (lecture 4) Ea

Phys102 Lecture 3 Gauss’s Law

Physics for Scientists and Engineers, with Modern Physics, 4th edition

Chapter 22 Gauss’s Law Chapter 22 opener. Gauss’s law is an elegant relation between electric charge and electric field. It is more general than Coulomb’s.

Gauss’s law This lecture was given mostly on the board so these slides are only a guide to what was done.

Gauss’ Law AP Physics C.

Chapter 22 Gauss’s Law Chapter 22 opener. Gauss’s law is an elegant relation between electric charge and electric field. It is more general than Coulomb’s.

Example 24-2: flux through a cube of a uniform electric field

Applying Gauss’s Law Gauss’s law is useful only when the electric field is constant on a given surface 1. Select Gauss surface In this case a cylindrical.

Presentation transcript:

Divergence and Curl of Electrostatic Fields Field of a point charge arrowsfield lines:

Bits of thread in oil align with the field lines.

Construction principle: Field lines start at +q and end at –q. The number of lines is proportional to q. If the total charge is different from 0, there will be lines going to or coming from infinity. Field lines never cross. The field lines point in radial direction near point charges.

Divergence of E (Gauss’s Law)

Application of Gauss’s law (integral form): 1. Spherical symmetry: 3. Plane symmetry: The direction of the field is known, and it is constant on the Gaussian surface 2. Cylindrical symmetry:

Example 2.2 What is the field outside the uniformly charged sphere?

Example 2.3 Field inside a long cylinder with charge density

Example 2.4 Infinite plate with uniform surface charge density

Example 2.5

Field Lines and Flux Flux through a surface:

Streamlines of a fluid flowing around a cylinder.

Conservation of flux: Flux tube: The flux (number of field/stream lines) through the different cross sections of the flux tube is constant.

Curl of E General properties

Laws of electrostatics