Presentation is loading. Please wait.

Presentation is loading. Please wait.

Magnetism (sec. 27.1) Magnetic field (sec. 27.2) Magnetic field lines and magnetic flux (sec. 27.3) Motion of charges in a B field (sec. 27.4) Applications.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Magnetism (sec. 27.1) Magnetic field (sec. 27.2) Magnetic field lines and magnetic flux (sec. 27.3) Motion of charges in a B field (sec. 27.4) Applications."— Presentation transcript:

1 Magnetism (sec. 27.1) Magnetic field (sec. 27.2) Magnetic field lines and magnetic flux (sec. 27.3) Motion of charges in a B field (sec. 27.4) Applications - moving charged particles (sec. 27.5) Magnetic force on conductor with current (sec. 27.6) Force and torque on a current loop (sec. 27.7) Direct current motor(sec. 27.8) The Hall effect(sec. 27.9) Magnetic Field & Forces Ch. 27 C 2009 J. Becker

2 Forces between bar magnets (or permanent magnets )

3 Earth’s magnetic field (Note the N-S polls of magnet!)

4 Compass over a horizontal current-carrying wire

5 Magnetic force acting on a moving (+) charge

6 Magnetic field lines associated with a permanent magnet, coil, iron-core electromagnet, current in wire, current loop

7 MAGNETIC FLUX through an area element dA

8 Orbit of a charged particle in a uniform magnetic field is a circle R = m v / q B

9 The Van Allen radiation belts around the Earth

10 Velocity selector for charged particles uses perpendicular E and B fields q v B = q E v = E / B

11 Mass spectrometer uses a velocity selector to produce particles with uniform speed. And from R = m v / q B we get q / m = v / B R

12 Force on a moving positive charge in a current-carrying conductor: F = I L x B L I I For vector direction use “RIGHT HAND RULE”

13 Magnetic force on a straight wire carrying current I in a magnetic field B Right hand rule F = I L x B

14 Magnetic field B, length L, and force F vectors for a straight wire carrying a current I

15 Components of a loudspeaker F = I l x B

16 Forces on the sides of a current-carrying loop in a uniform magnetic field. This is how a motor works!

17 Right hand rule determines the direction of the magnetic moment (  ) of a current-carrying loop

18 Torque (  x B) on this solenoid in a uniform magnetic field is into the screen thus rotating the solenoid clockwise

19 Current loops in a non-uniform B field

20 Atomic magnetic moments in an iron bar (a) unmagnetized (b) magnetized (c)Torgue on a bar magnet in a B field

21 Bar magnet attracts an unmagnetized piece of iron; the B field gives rise to a net magnetic moment in the object

22 A simple DC motor

23 The Hall effect – forces on charge carriers in a conductor in a B field. With a simple voltage measurement we can determine whether the “charge carriers” are positive or negative.

24 A linear motor

25 Electromagnetic pump

26 See www.physics.edu/becker/physics51 Review C 2009 J. F. Becker

Download ppt "Magnetism (sec. 27.1) Magnetic field (sec. 27.2) Magnetic field lines and magnetic flux (sec. 27.3) Motion of charges in a B field (sec. 27.4) Applications."

Similar presentations

Magnetism and Currents. A current generates a magnetic field. A magnetic field exerts a force on a current. Two contiguous conductors, carrying currents,

Magnetism and Currents. A current generates a magnetic field. A magnetic field exerts a force on a current. Two contiguous conductors, carrying currents,
Phy 213: General Physics III Chapter 28: Magnetic Fields Lecture Notes.

Phy 213: General Physics III Chapter 28: Magnetic Fields Lecture Notes.
20.6 Force between Two Parallel Wires The magnetic field produced at the position of wire 2 due to the current in wire 1 is: The force this field exerts.

20.6 Force between Two Parallel Wires The magnetic field produced at the position of wire 2 due to the current in wire 1 is: The force this field exerts.
Chapter 19 Magnetism Conceptual questions: 5,6,8,14,16

Chapter 19 Magnetism Conceptual questions: 5,6,8,14,16
How to Use This Presentation

How to Use This Presentation
Chapter 20 Magnetism.

Chapter 20 Magnetism.
Magnetism. Observe: SNSN Attract or repel? Observe: SNSN Attract or repel?

Magnetism. Observe: SNSN Attract or repel? Observe: SNSN Attract or repel?
© 2005 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.

© 2005 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.
Chapter 28. Magnetic Field

Chapter 28. Magnetic Field
Ch 20 1 Chapter 20 Magnetism © 2006, B.J. Lieb Some figures electronically reproduced by permission of Pearson Education, Inc., Upper Saddle River, New.

Ch 20 1 Chapter 20 Magnetism © 2006, B.J. Lieb Some figures electronically reproduced by permission of Pearson Education, Inc., Upper Saddle River, New.
Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.

Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.
© 2012 Pearson Education, Inc. { Chapter 27 Magnetic Fields and Forces (cont.)

© 2012 Pearson Education, Inc. { Chapter 27 Magnetic Fields and Forces (cont.)
Chapter 22 Magnetism.

Chapter 22 Magnetism.
Lecture 19-Wednesday March 11 Magnetic Forces on Moving Charges Mass Spectrometers.

Lecture 19-Wednesday March 11 Magnetic Forces on Moving Charges Mass Spectrometers.
Magnetic Fields Faraday’s Law

Magnetic Fields Faraday’s Law
Magnetic Field and Magnetic Forces

Magnetic Field and Magnetic Forces
Magnetism (sec. 27.1) Magnetic field (sec. 27.2) Magnetic field lines and magnetic flux (sec. 27.3) Motion of charges in a B field (sec. 27.4) Applications.

Magnetism (sec. 27.1) Magnetic field (sec. 27.2) Magnetic field lines and magnetic flux (sec. 27.3) Motion of charges in a B field (sec. 27.4) Applications.
Copyright © 2007, Pearson Education, Inc., Publishing as Pearson Addison-Wesley. Magnets and the magnetic field Electric currents create magnetic fields.

Copyright © 2007, Pearson Education, Inc., Publishing as Pearson Addison-Wesley. Magnets and the magnetic field Electric currents create magnetic fields.
Physics 121: Electricity & Magnetism – Lecture 9 Magnetic Fields Dale E. Gary Wenda Cao NJIT Physics Department.

Physics 121: Electricity & Magnetism – Lecture 9 Magnetic Fields Dale E. Gary Wenda Cao NJIT Physics Department.
Example: Magnetic Force Directions from Right Hand Rule

Example: Magnetic Force Directions from Right Hand Rule

Similar presentations

Ads by Google