Problem #34 (a) Example 23.8 (a) Consider a uniformly charged thin-walled right circular cylindrical shell having total charge Q, radius R, and height.

Slides:

Advertisements

Similar presentations

Straight line currents

Advertisements

Unit 1 Day 16: Electric Potential due to any Charge Distribution

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.

Chapter 22: The Electric Field II: Continuous Charge Distributions

Applications of Gauss’s Law

Electric Potential AP Physics Montwood High School R. Casao.

Lecture 6 Problems.

Section 8.3 Nack/Jones1 8.3 Cylinders & Cones. Section 8.3 Nack/Jones2 Cylinders A cylinder has 2 bases that are congruent circles lying on parallel planes.

Gauss’s law and its applications

1 TOPIC 2 Electric Fields

Chapter 23 Gauss’ Law.

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

Dr. Jie ZouPHY Chapter 30 Sources of the Magnetic Field.

General Physics 2, Lec 5, By/ T.A. Eleyan 1 Additional Questions (Gauss’s Law)

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

General Physics 2, Lec 6, By/ T.A. Eleyan

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

EEE340 Lecture 111 Example 3-9 Obtain a formula for the electric field on the axis of a circular disk of radius b that carries a uniform surface charge.

-L-L L P ConcepTest #5: Assume that a strip of tape, length 2 L, has a uniform charge distribution and is oriented as shown. What is the direction of the.

Physics 2102 Lecture 9 FIRST MIDTERM REVIEW Physics 2102

1 W02D1 Electric Dipoles and Continuous Charge Distributions.

Question A) B) C) D) E An electric field polarizes a metal block as shown.

Chapter 21 Electric Charge and Electric Field HW #4: Chapter 21: Pb.21,Pb. 38, Pb. 40, Pb. 52, Pb. 59, Pb.80 Due Friday, Feb 20.

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.

Chapter 24. Electric Potential

General Physics 2, Lec 5, By/ T.A. Eleyan 1 Additional Questions (Gauss’s Law)

© 2012 Pearson Education, Inc. { Chapter 22 Applying Gauss’s Law.

Electricity and Magnetism Review 1: Units 1-6

Electric Flux and Gauss Law

Dr. Jie ZouPHY Chapter 22 Magnetism (Lecture II)

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.

1 W04D1 Electric Potential and Gauss’ Law Equipotential Lines Today’s Reading Assignment Course Notes: Sections ,

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

Electric Field Models The electric field of a point charge q at the origin, r = 0, is where є 0 = 8.85 × 10 –12 C 2 /N m 2 is the permittivity constant.

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

Physics 2113 Lecture 08: MON 02 FEB Electric Fields III Physics 2113 Jonathan Dowling Charles-Augustin de Coulomb ( )

ELEC 3105 Basic EM and Power Engineering

Chapter 21 Electric Charge and Electric Field HW #4: Chapter 21: Pb.21,Pb.38, Pb.40, Pb.52, Pb.59, Pb.80 Due Friday, Feb 20.

Day 4: Electric Field Calculations for Continuous Charge Distributions A Uniform Distribution of Surface charge A Ring of Continuous Charge A Long Line.

Added Notes August 31, 2005.

1 W02D1 Electric Dipoles and Continuous Charge Distributions.

Question. Question A) B) C) D) E An electric field polarizes a metal.

Wednesday, Sep. 14, PHYS Dr. Andrew Brandt PHYS 1444 – Section 04 Lecture #5 Chapter 21: E-field examples Chapter 22: Gauss’ Law Examples.

-Electric Potential due to Continuous Charge Distributions AP Physics C Mrs. Coyle.

Q22.1 A spherical Gaussian surface (#1) encloses and is centered on a point charge +q. A second spherical Gaussian surface (#2) of the same size also encloses.

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.

Gauss’s Law (III) Examples.

Tue. Jan. 27 – Physics Lecture #23 Electric Field, Continued (and Continuous!) 1. Electric Field due to Continuous Charge Distributions Warm-up: Consider.

Physics 2113 Lecture 13: WED 23 SEP EXAM I: REVIEW Physics 2113 Jonathan Dowling.

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.

Halliday/Resnick/Walker Fundamentals of Physics

Copyright © 2009 Pearson Education, Inc. Supplemental Lecture Taken from Ch. 21 in the book by Giancoli Section & Example Numbers refer to that book.

The Electric Field Due to a Continuous Charge Distribution (worked examples) finite line of charge general derivation:

Fig 24-CO, p.737 Chapter 24: Gauss’s Law قانون جاوس 1- Electric Flux 2- Gauss’s Law 3-Application of Gauss’s law 4- Conductors in Electrostatic Equilibrium.

Help Session Ch-23.

24.2 Gauss’s Law.

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

Chapter 23 Electric Potential

Chapter 23: Electric Fields

Fields & Forces Coulomb’s law Q r q How does q “feel” effect of Q?

Copyright © 2014 John Wiley & Sons, Inc. All rights reserved.

ELECTRIC FIELD ELECTRIC FLUX Lectures 3, 4 & 5 a a R 2R

Chapter 23 Electric Potential

An infinitesimal length dx of rod has dq=dx of charge, where =Q/L.

Electrostatics – Charges on Conductors

Chapter 21, Electric Charge, and electric Field

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

Presentation transcript:

Problem #34 (a) Example 23.8 (a) Consider a uniformly charged thin-walled right circular cylindrical shell having total charge Q, radius R, and height h. Determine the electric field at a point a distance d from the right side of the cylinder as shown in the Figure below. (Suggestion: Use the result of Example 23.8 and treat the cylinder as a collection of ring charges.) Dr. Jie Zou PHY 1361

Problem #34 (b) Example 23.9 (b) What If? Consider now a solid cylinder with the same dimensions and carrying the same charge, uniformly distributed through its volume. Use the result of Example 23.9 to find the field it creates at the same point. Dr. Jie Zou PHY 1361

Problem #35 A thin rod of length ℓ and uniform charge per unit length λ lies along the x axis, as shown in the Figure. (a) Show that the electric field at P, a distance y from the rod along its perpendicular bisector, has no x component and is given by E = (2ke λ sin θ0 )/y. (b) What If? Using your result to part (a), show that the field of a rod of infinite length is E = 2ke λ /y. Dr. Jie Zou PHY 1361