29. Electromagnetic Induction

Slides:

Advertisements

Similar presentations

EXAM 2!! Cheat sheet #1 and #2 are on line. YOU’RE going to need to Memorize the 3 Right-Hand rules! You will need: Writing utensils Calculator (NO PHONES)

Advertisements

Electromagnetic Induction Inductors. Problem A metal rod of length L and mass m is free to slide, without friction, on two parallel metal tracks. The.

Induction Faraday’s Law. Induction We will start the discussion of Faraday’s law with the description of an experiment. A conducting loop is connected.

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

Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.

Chapter 31 Faraday’s Law 31.1 Faraday’s Law of Induction

Electromagnetism Quiz Review Mr. Davis Baltimore Poly.

Electricity and Magnetism Electromagnetic Induction Mr D. Patterson.

Magnetic Fields Faraday’s Law

Biot-Savart Law The Field Produced by a Straight Wire.

Induced EMF and Inductance 1830s Michael Faraday Joseph Henry M is mutual inductance.

Dr. Jie ZouPHY Chapter 31 Faraday’s Law. Dr. Jie ZouPHY Outline Faraday’s law of induction Some observations and Faraday’s experiment Faraday’s.

Walker, Chapter 23 Magnetic Flux and Faraday’s Law of Induction

Induced EMF and Inductance 1830s Michael Faraday Joseph Henry.

PHY 232 Spring 2003 Prof. S. Billinge Class 11. PHY 232 Spring 2003 Prof. S. Billinge Announcements.

A coil is wrapped with 340 turns of wire on the perimeter of a circular frame (radius = 8.1 cm). Each turn has the same area, equal to that of the frame.

Two questions: (1) How to find the force, F on the electric charge, Q excreted by the field E and/or B? (2) How fields E and/or B can be created? Gauss’s.

Announcements  Homework for tomorrow… Ch. 33: CQ 4, Probs. 10, 12, & 14 CQ1: CCW CQ2: push against resistive force 33.2: 0.10 T, out of page 33.3: 2.3.

Induction experiments(sec. 29.1) Faraday’s law (sec. 29.2) Lenz’s law(sec. 29.3) Motional electromotive force(sec. 29.4) Induced electric fields(sec. 29.5)

Induction experiments(sec. 29.1) Faraday’s law (sec. 29.2) Lenz’s law(sec. 29.3) Motional electromotive force(sec. 29.4) Induced electric fields(sec. 29.5)

Biot-Savart Law The Field Produced by a Straight Wire.

Physics 121 Practice Problem Solutions 11 Faraday’s Law of Induction

Physics 121: Electricity & Magnetism – Lecture 11 Induction I Dale E. Gary Wenda Cao NJIT Physics Department.

Electromagnetic Induction

CHAPTER 20, SECTION 1 ELECTRICITY FROM MAGNETISM.

Chapter 29:Electromagnetic Induction and Faraday’s Law

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

AP Physics Chapter 20 Electromagnetic Induction. Chapter 20: Electromagnetic Induction 20.1:Induced Emf’s: Faraday’s Law and Lenz’s Law : Omitted.

Induced EMF. EMF EMF - It is potential difference and is measured in volts (V ).

Chapter 20 Induced Voltages and Inductance. Faraday’s Experiment A primary coil is connected to a battery and a secondary coil is connected to an ammeter.

General electric flux definition

Magnetic Induction Chapter Induced currents

Chapter 31 Faraday’s Law.

An RL circuit in which L = 0

AP Physics C III.E – Electromagnetism. Motional EMF. Consider a conducting wire moving through a magnetic field.

Lecture 9 Electromagnetic Induction Chapter 20.1  20.4 Outline Induced Emf Magnetic Flux Faraday’s Law of Induction.

MAGNETIC INDUCTION MAGNETUIC FLUX: FARADAY’S LAW, INDUCED EMF:

Faraday’s Law of Induction

Magnetic Induction - magnetic flux - induced emf

Electromagnetic Induction (EMI) AP Physics. Electromagnetic Induction (EMI) A changing magnetic field can induce a current in a circuit called the induced.

Electromagnetic Induction AP Physics Chapter 21. Electromagnetic Induction 21.1 Induced EMF.

Magnetism and its applications.

Electromagnetic Induction. Faraday Discovered basic principle of electromagnetic induction Whenever the magnetic field around a conductor is moving or.

Chapter 20 Electromagnetic Induction. Electricity and magnetism Generators, motors, and transformers.

Unit 5 Day 2: Induced EMF in a Moving Conductor Induced EMF in a Moving Conductor in a Magnetic Field Force Required to Move a Moving Conductor in a Uniform.

Lectures 15&16 : The Laws of Electromagnetic Induction

Copyright © 2007, Pearson Education, Inc., Publishing as Pearson Addison-Wesley. Electromagnetic induction Lenz’s law Faraday’s law The nature of electromagnetic.

Ch 21 1 Chapter 21 Electromagnetic Induction Faraday’s Law AC Circuits © 2006, B.J. Lieb Some figures electronically reproduced by permission of Pearson.

Induction Mr. B. Motional electromotive force The movement of a conductor through a magnetic to produce a current Example 32-1 If v is not perpendicular.

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

Magnetism #2 Induced EMF Ch.20. Faraday’s Law of Induction We now know that a current carrying wire will produce its own magnetic field with the lines.

 B = BA Cos  Example 1.1 A coil consists of 200 turns of wire. Each turn is a square of side 18 cm, and a uniform magnetic field directed.

CHAPTER 20: INDUCED VOLTAGES AND INDUCTANCE HERRIMAN HIGH AP PHYSICS 2.

Faraday’s Law EMF The EMF around a closed path is equal to the rate of change of the magnetic flux inside the path.

Electromagnetic Induction. Induced current/emf(voltage) Current or voltage produced by a changing magnetic field.

CH Review Changing the magnetic flux in a coil induces an emf around the coil. (As long as the coil is connected in a complete circuit, a current.

P202c30: 1 Chapter30: Electromagnetic Induction Motional EMF’s Conductor Moving through a magnetic field Magnetic Force on charge carriers Accumulation.

Electromagnetic induction Objectives: 1.Describe what happens when a coil of wire is placed in a changing magnetic field. 2.Calculate the magnetic flux.

 Electromagnetic Induction – The production of an emf (the energy per unit charge supplied by a source of electric current) in a conducting circuit by.

AP Physics C III.E – Electromagnetism. Motional EMF. Consider a conducting wire moving through a magnetic field.

Chapter 29:Electromagnetic Induction and Faraday’s Law

Electromagnetic Induction.  = BA  = BA cos  Magnetic flux: is defined as the product of the magnetic field B and the area A of the.

Two questions: (1) How to find the force, F on the electric charge, Q excreted by the field E and/or B? (2) How fields E and/or B can be created?

Magnetic Induction Review of Chapter 22.

EMF Induced in a Moving Conductor (“Motional EMF”)

Chapter 13: Electromagnetic Induction

Two questions: (1) How to find the force, F on the electric charge, Q excreted by the field E and/or B? (2) How fields E and/or B can be created?

Presentation transcript:

29. Electromagnetic Induction

1. Induction Experiments When there is a change in magnetic field, there will be a momentary current. Induced emf Induced current

2-3.Faraday’s Law & Lenz’s Law Magnetic Flux

Faraday’s law of induction The induced emf in a closed loop equals the negative of the time rate of change of magnetic flux through the loop With N turns of wire,

Example 29.1) (a) Find the induced emf and the induced current in the circuit if the loop is a conductor. (b) If the loop is replaced by one made of an insulator, what effect does this have on the induces emf and induced current?

Example 29.4) A simple alternator

Example 29.5) A DC generator

Example 29.6) The slidewire generator

Example 29. 7) Work and Power in the slidewire generator Example 29.7) Work and Power in the slidewire generator. Show that Pdissipated in the circuit is exactly equal to the rate at which work must be done to move the rod through the magnetic filed. Resistance of circuit is R.

Lenz’s law The direction of any magnetic induction effect is such as to oppose the cause of the effect.

4-5. Motional EMF & Induced Electric field

Problem 29.54) The current in the long, straight wire AB is upward and increasing steadily at a rate di/dt. a) At an instant when the current is i, what are the magnitude and direction of the field at a distance r to the right of the wire? b) What is the flux through the loop? c) What is the total flux through the loop? d) What is the induced emf in the loop? e) Evaluate the numerical value of the induced emf if a=12.0 cm, b=36.0 cm, L=24.0 cm, and di/dt=9.6A/s.

Displacement Current

7. Maxwell’s Equations

Problem 29.2) A coil with 200 turns enclosing an area of 12 cm2 is rotated in 0.040 s from a position where its plane is perpendicular to the earth’s magnetic field to one where its plane is parallel to the field. a) What is the total magnetic flux for parallel and perpendicular position? b) What is the average induced emf?

Problem 29. 10) A circular loop of wire with a radius of 12 Problem 29.10) A circular loop of wire with a radius of 12.0 cm and oriented in the horizontal xy-plane is located in a region of uniform magnetic field. A magnetic field with a magnitude of 1.5 T is directed along the positive z-direction, which is upward. a) If the loop is removed from the field region in a time interval of 2.010-3 s, find the average emf that will be induced in the wire loop during the extraction process. b) If the coil is viewed looking down on it from above, is the induced current in the loop clockwise or counterclockwise?