Presentation is loading. Please wait.

Presentation is loading. Please wait.

Physics 1161 Lecture 3 Electric Flux and Shielding

Published byJonas Walsh Modified over 5 years ago

Similar presentations

Presentation on theme: "Physics 1161 Lecture 3 Electric Flux and Shielding"— Presentation transcript:

1 Physics 1161 Lecture 3 Electric Flux and Shielding

2 Checkpoint 3 Which is (are) true? When the charge distribution on a conductor reaches equilibrium, a. the electric field within the conductor is zero. b. any electric charge deposited on the conductor resides on the surface. c. the electric field at the surface is perpendicular to the surface.

3 Charged Conductors Electrostatic equilibrium -- excess charge has distributed itself so as to reduce the total amount of repulsive forces. Once a charged conductor has reached the state of electrostatic equilibrium, there is no further motion of charge about the surface.

4 Electrostatic Equilibrium
any excess charge lies only at the surface of the conductor the electric field is zero within the solid part of the conductor the electric field at the surface of the conductor is perpendicular to the surface charge accumulates, and the field is strongest, on pointy parts of the conductor

5 charge accumulates, and field is strongest, on pointy parts of the conductor
Charge tends to accumulate in greater numbers at locations of greatest curvature.

6 excess charge lies only at surface of conductor
Charges want to get as far away from each other as possible. To do this they move to the surface of the conductor.

7 Checkpoint 4-2 1) The magnitude of the electric field inside the charged sphere is ...  Zero  Negative  Positive

8 electric field is zero within the solid part of the conductor
Charges distribute themselves so the electric field inside the conductor is zero. If the field wasn't zero, any electrons that are free to move would.

9 electric field at surface of conductor is perpendicular to the surface
If there were a component of the field along the surface, charges would move along the surface in response, which is inconsistent with the conductor being in equilibrium.

10 Shielding A conductor shields its interior from external electric fields. Shielding occurs whether the conductor is hollow or solid. Many electrical devices use this property to shield sensitive circuit elements

11 Electric Flux θ is the angle between the normal
to the surface and the field SI units:

12 Electric Flux

13 Gauss’ Law In general, flux through a closed surface
depends only on enclosed charge.

14 =2R2E =R2E =0 =(2RL+2R2)E
An uncharged cylinder of radius R and length L is immersed in a uniform electric field E. What is the flux of the electric field through the closed surface? =2R2E =R2E =0 =(2RL+2R2)E

Download ppt "Physics 1161 Lecture 3 Electric Flux and Shielding"

Similar presentations

Conductors in Electrostatic Equilibrium

Conductors in Electrostatic Equilibrium
Electricity & Magnetism

Electricity & Magnetism
TOC 1 Physics 212 Electric Flux and Gauss Law Electric Flux Gausss Law Electric Field of Spheres Other Gaussian Surfaces Point Charges and Spheres.

TOC 1 Physics 212 Electric Flux and Gauss Law Electric Flux Gausss Law Electric Field of Spheres Other Gaussian Surfaces Point Charges and Spheres.
Continuous Charge Distributions

Continuous Charge Distributions
Gauss’s law and its applications

Gauss’s law and its applications
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)
Electric Field Line Patterns Point charge The lines radiate equally in all directions For a positive source charge, the lines will radiate outward.

Electric Field Line Patterns Point charge The lines radiate equally in all directions For a positive source charge, the lines will radiate outward.
Conductors in Electrostatic Equilibrium. Electrostatic Equilibrium No net flow of electric charge No current.

Conductors in Electrostatic Equilibrium. Electrostatic Equilibrium No net flow of electric charge No current.
Chapter 24 Gauss’s Law.

Chapter 24 Gauss’s Law.
Chapter 23 Gauss’ Law.

Chapter 23 Gauss’ Law.
Gauss’s Law PH 203 Professor Lee Carkner Lecture 5.

Gauss’s Law PH 203 Professor Lee Carkner Lecture 5.
Chapter 24 Gauss’s Law.

Chapter 24 Gauss’s Law.
Gauss’s Law PH 203 Professor Lee Carkner Lecture 5.

Gauss’s Law PH 203 Professor Lee Carkner Lecture 5.
Electricity Electric Flux and Gauss’s Law 1 Electric Flux Gauss’s Law Electric Field of Spheres Other Gaussian Surfaces Point Charges and Spheres.

Electricity Electric Flux and Gauss’s Law 1 Electric Flux Gauss’s Law Electric Field of Spheres Other Gaussian Surfaces Point Charges and Spheres.
Chapter 24 Gauss’s Law.

Chapter 24 Gauss’s Law.
Physics for Scientists and Engineers II, Summer Semester 2009 Lecture 3: May 22 nd 2009 Physics for Scientists and Engineers II.

Physics for Scientists and Engineers II, Summer Semester 2009 Lecture 3: May 22 nd 2009 Physics for Scientists and Engineers II.
Electric Forces and Electric Fields

Electric Forces and Electric Fields
From Chapter 23 – Coulomb’s Law

From Chapter 23 – Coulomb’s Law
Electricity & Magnetism Seb Oliver Lecture 6: Gauss’s Law.

Electricity & Magnetism Seb Oliver Lecture 6: Gauss’s Law.
Gauss’ Law. Class Objectives Introduce the idea of the Gauss’ law as another method to calculate the electric field. Understand that the previous method.

Gauss’ Law. Class Objectives Introduce the idea of the Gauss’ law as another method to calculate the electric field. Understand that the previous method.

Similar presentations

Ads by Google