Presentation is loading. Please wait.

Presentation is loading. Please wait.

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

Published byHorace May Modified over 5 years ago

Similar presentations

Presentation on theme: "Last Lectures This lecture Gauss’s law Using Gauss’s law for:"— Presentation transcript:

1 Last Lectures This lecture Gauss’s law Using Gauss’s law for:
spherical symmetry line symmetry plane symmetry This lecture Conductors in electric fields

2 21.6 Charges on Conductors electrostatic equilibrium

3 A Gaussian surface completely within the conductor.
Since E must be zero inside conductor, the net flux through this surface must be zero.

4 EXAMPLE: (a) shows a cross section of a spherical metal shell of inner radius R. A point charge of –5.0 C is located at a distance R/2 from the centre of the shell. If the shell is electrically neutral, what are the (induced) charges on its inner and outer surfaces? Are those charges uniformly distributed? What is the field pattern inside and outside the shell? Key Idea: Electric field is zero inside metal and thus on Gaussian surface. Key Idea: Shell is electrically neutral. Electrons move from inner surface to outer surface and spread out uniformly

5 Assess: What does this charge distribution look like from far away?
Example 21.7 There is a hollow cavity inside a conductor. The conductor itself has a charge of 1 μC, and there is a 2 μC charge inside the cavity. Find the net charge on the outer surface of the conductor, assuming electrostatic equilibrium. Assess: What does this charge distribution look like from far away?

6 NB E is always perpendicular to the surface
Field at the surface of a conductor NB E is always perpendicular to the surface WHY? More on this with potential

7 Now use Gauss’s law to find E just outside a conductor surface
Field at the surface of a conductor Now use Gauss’s law to find E just outside a conductor surface (field at conductor surface)

8 Field at the surface of a conductor

9 Two oppositely charged conducting plates
Field at the surface of a conductor Two oppositely charged conducting plates

10 Try these again! True A True or False?
If the net electric flux out of a closed surface is zero, the electric field must be zero everywhere on the surface. If the net electric flux out of a closed surface is zero, the charge density must be zero everywhere inside the surface. The electric field is zero everywhere within the material of a conductor in electrostatic equilibrium. The tangential component of the electric field is zero at all points just outside the surface of a conductor in electrostatic equilibrium. The normal component of the electric field is the same at all points just outside the surface of a conductor in electrostatic equilibrium. False F False False True True False Try these again!

Download ppt "Last Lectures This lecture Gauss’s law Using Gauss’s law for:"

Similar presentations

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

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

Applications of Gauss’s Law
Lecture 6 Problems.

Lecture 6 Problems.
Continuous Charge Distributions

Continuous Charge Distributions
Conductors in Electrostatic Equilibrium

Conductors in Electrostatic Equilibrium
Physics 2102 Lecture 4 Gauss’ Law II Physics 2102 Jonathan Dowling Carl Friedrich Gauss 1777-1855 Version: 1/23/07 Flux Capacitor (Operational)

Physics 2102 Lecture 4 Gauss’ Law II Physics 2102 Jonathan Dowling Carl Friedrich Gauss Version: 1/23/07 Flux Capacitor (Operational)
Hw: All Chapter 5 problems and exercises. Test 1 results Average 75 Median 78 >90>80>70>60>50

Hw: All Chapter 5 problems and exercises. Test 1 results Average 75 Median 78 >90>80>70>60>50
A Charged, Thin Sheet of Insulating Material + + + + + + + + + + +

A Charged, Thin Sheet of Insulating Material
Electricity and Magnetism

Electricity and Magnetism
Hw: All Chapter 5 problems and exercises. Outline Applications of Gauss’s Law - The single Fixed Charge -Field of a sphere of charge -Field of a spherical.

Hw: All Chapter 5 problems and exercises. Outline Applications of Gauss’s Law - The single Fixed Charge -Field of a sphere of charge -Field of a spherical.
From Chapter 23 – Coulomb’s Law

From Chapter 23 – Coulomb’s Law
Short Version : 21. Gauss’s Law. 21.1. Electric Field Lines Electric field lines = Continuous lines whose tangent is everywhere // E. They begin at +

Short Version : 21. Gauss’s Law Electric Field Lines Electric field lines = Continuous lines whose tangent is everywhere // E. They begin at +
Summer July 20061 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.

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.
Electric Field Lines - a “map” of the strength of the electric field. The electric field is force per unit charge, so the field lines are sometimes called.

Electric Field Lines - a “map” of the strength of the electric field. The electric field is force per unit charge, so the field lines are sometimes called.
III.A 3, Gauss’ Law.

III.A 3, Gauss’ Law.
22 Electric Field II Covering sections 1-5 (omit section 6)

22 Electric Field II Covering sections 1-5 (omit section 6)
1 Lecture 3 Gauss’s Law Ch. 23 Physlet ch9_2_gauss/default.html Topics –Electric Flux –Gauss’

1 Lecture 3 Gauss’s Law Ch. 23 Physlet ch9_2_gauss/default.html Topics –Electric Flux –Gauss’
Application of Gauss’ Law to calculate Electric field:

Application of Gauss’ Law to calculate Electric field:
ELECTRICITY PHY1013S GAUSS’S LAW Gregor Leigh

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.

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.

Similar presentations

Ads by Google