Electric flux, Gauss’s law

Slides:

Advertisements

Similar presentations

Gauss’s Law Electric Flux

Advertisements

Gauss’ Law AP Physics C.

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

Ch. 24 Electric Flux Gauss's Law

Physics 2102 Lecture 4 Gauss’ Law II Physics 2102 Jonathan Dowling Carl Friedrich Gauss Version: 1/23/07 Flux Capacitor (Operational)

Phy 213: General Physics III Chapter 23: Gauss’ Law Lecture Notes.

Physics 2113 Lecture 12: WED 11 FEB Gauss’ Law III Physics 2113 Jonathan Dowling Carl Friedrich Gauss 1777 – 1855 Flux Capacitor (Operational)

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

I-2 Gauss’ Law Main Topics The Electric Flux. The Gauss’ Law. The Charge Density. Use the G. L. to calculate the field of a.

Copyright © 2012 Pearson Education Inc. PowerPoint ® Lectures for University Physics, Thirteenth Edition – Hugh D. Young and Roger A. Freedman Lectures.

Chapter 24 Gauss’s Law.

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.

Chapter 23 Gauss’s Law Summer Chapter 23 Gauss’ law In this chapter we will introduce the following new concepts: The flux (symbol Φ ) of the electric.

Chapter 24 Review on Chapter 23 From Coulomb's Law to Gauss’s Law

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

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.

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 10: WED 16 SEP Gauss’ Law III Physics 2113 Jonathan Dowling Carl Friedrich Gauss 1777 – 1855 Flux Capacitor (Operational)

Review on Coulomb’s Law and the electric field definition

Flux and Gauss’s Law Spring Last Time: Definition – Sort of – Electric Field Lines DIPOLE FIELD LINK CHARGE.

Copyright © 2012 Pearson Education Inc. PowerPoint ® Lectures for University Physics, Thirteenth Edition – Hugh D. Young and Roger A. Freedman Lectures.

24.2 Gauss’s Law.

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

4. Gauss’s law Units: 4.1 Electric flux Uniform electric field

Ch 24 – Gauss’s Law Karl Friedrich Gauss

Physics 2102 Lecture: 04 THU 28 JAN

ACTIVE LEARNING ASSIGNMENT Engineering Electromegnetics ( )

Gauss’s Law Chapter 24.

Chapter 23 Gauss’s Law Spring 2008.

Physics 2102 Lecture: 06 MON 26 JAN 08

Gauss’s Law Gauss’s law uses symmetry to simplify electric field calculations. Gauss’s law also gives us insight into how electric charge distributes itself.

Gauss’s Law ENROLL NO Basic Concepts Electric Flux

Electric Flux & Gauss Law

4. Gauss’s law Units: 4.1 Electric flux Uniform electric field

Chapter 22 Gauss’s Law.

Gauss’s Law Electric Flux

Electric flux, Gauss’s law

Using Symmetry to Solve really complex vector calculus. . .

Flux and Gauss’s Law Spring 2009.

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

Flux Capacitor (Operational)

TOPIC 3 Gauss’s Law.

Chapter 21 Gauss’s Law.

Flux Capacitor (Schematic)

Gauss’ Law AP Physics C.

C. less, but not zero. D. zero.

Gauss’s Law Electric Flux

Physics 2113 Lecture: 11 MON 09 FEB

Chapter 23 Gauss’s Law.

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

Question for the day Can the magnitude of the electric charge be calculated from the strength of the electric field it creates?

From last time… Motion of charged particles

Gauss’ Law AP Physics C.

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

4. Gauss’s law Units: 4.1 Electric flux Uniform electric field

Physics 2102 Lecture 05: TUE 02 FEB

Physics 2102 Lecture: 07 WED 28 JAN

Phys102 Lecture 3 Gauss’s Law

Chapter 23 Gauss’s Law.

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

Chapter 23 Gauss’s Law.

Presentation transcript:

Electric flux, Gauss’s law Carl Friedrich Gauss Physics 114 11/14/2018 Lecture III

Concepts Primary concepts: Electric flux 11/14/2018 Lecture III

Laws Gauss’s law 11/14/2018 Lecture III

Definition of electric flux Flux means flow Nothing is actually flowing Other than that thinking of flow really helps to understand the flux 11/14/2018 Lecture III

Electric flux If electric field is rain – electric flux is the amount of water in a bucket accumulated per unit of time: Only component of the field perpendicular to the area A contributes to the flux 11/14/2018 Lecture III

Electric flux Alternatively we can define a vector A, which equals to the area A and is directed perpendicularly to the area Flux is proportional to the number of field lines going through the surface 11/14/2018 Lecture III

Compare fluxes Which flux is larger? 2 1 Which flux is larger? 1). F1>F2 2). F1<F2 3). F1=F2 11/14/2018 Lecture III

Compare fluxes Which flux is larger? 2 1 Which flux is larger? 1). F1>F2 2). F1<F2 3). F1=F2 11/14/2018 Lecture III

Compare fluxes Which flux is larger? 1 2 Which flux is larger? 1). F1>F2 2). F1<F2 3). F1=F2 11/14/2018 Lecture III

Compare fluxes Which flux is larger? 1 2 Which flux is larger? 1). F1>F2 2). F1<F2 3). F1=F2 11/14/2018 Lecture III

Compare fluxes Which flux is larger? 1 2 Which flux is larger? 1). F1>F2 2). F1<F2 3). F1=F2 11/14/2018 Lecture III

Compare fluxes Which flux is larger? 2 1 Which flux is larger? 1). F1>F2 2). F1<F2 3). F1=F2 11/14/2018 Lecture III

Non-uniform field, irregular surface Closed surface Influx <0 Outflux>0 Don’t worry, we’ll only deal with simple surfaces Complex surfaces can be handled using numeric integration by a computer. 11/14/2018 Lecture III

Why do we need flux? Gauss’s law: 11/14/2018 Lecture III

Gauss Coulomb Calculate E of point like (+) charge Q Consider sphere radius r centered at the charge Spherical symmetry: E is the same everywhere on the sphere, perpendicular to the sphere 11/14/2018 Lecture III

Sinks and sources What goes in – goes out unless there is a source (positive charge) or a sink (negative charge) + - 11/14/2018 Lecture III

What’s the flux? F1=? F2=? 11/14/2018 Lecture III

Respect the symmetry Find electric field for the following configurations: Uniformly charged sphere. Charge Q, radius R. Long uniform line of charge. Charge per unit length l. Infinite plane of charge. Charge per unit of area s 11/14/2018 Lecture III

Field near conductor Infinite plane of charge. Charge per unit of area s Field inside conductor is zero, outside perpendicular to the surface. 11/14/2018 Lecture III

Two parallel plates + - Infinite plates One positive, one negative, Same charge density s + - 11/14/2018 Lecture III