The force on a charge q moving with a velocity The magnitude of the force.

Slides:

Advertisements

Similar presentations

Magnetic field II. Plan Motion of charge particle in electric and magnetic fields Some applications of magnetic fields.

Advertisements

Advanced Higher Physics Unit 2

Magnetic Force Acting on a Current-Carrying Conductor

Halliday/Resnick/Walker Fundamentals of Physics 8th edition

Chapter 26: The Magnetic Field

Chapter 30. Induction and Inductance

Chapter 28. Magnetic Field

Magnetic Fields Magnetic Field Forces on a Charged Particle Magnetic Field Lines Crossed Fields and Hall Effect Circulating Charged Particles Cyclotrons.

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

Wednesday, Oct. 26, 2005PHYS , Fall 2005 Dr. Jaehoon Yu 1 PHYS 1444 – Section 003 Lecture #16 Wednesday, Oct. 26, 2005 Dr. Jaehoon Yu Charged Particle.

Lecture 20 Discussion. [1] A rectangular coil of 150 loops forms a closed circuit with a resistance of 5 and measures 0.2 m wide by 0.1 m deep, as shown.

Charged Particles in Electric and Magnetic Fields Motion of charged particles Lorentz Force Examples: cyclotron, mass spectrometer.

Chapter 22 Magnetism.

What would the loop do in this situation? The loop will rotate about an axis halfway between the left and right sides of the circuit, parallel to the plane.

Cutnell/Johnson Physics 8th edition Reading Quiz Questions

Magnetic Field and Magnetic Forces

ConcepTest #21: A particle has a net positive charge, but it experiences no net electric force. Which of the following statements must be true? Hold up.

>80>80>90>70>70>60>60>50>50>29>40>40 Average 66.4 Median 69 High 96 Low 29.

The Magnetic Field The force on a charge q moving with a velocity The magnitude of the force.

Electricity and Magnetism

Problem 2 Find the torque about the left hand segment on the loop as a function of θ, the angle the plane makes with the horizontal plane.

The Magnetic Field The force on a charge q moving with a velocity The magnitude of the force.

Physics 121: Electricity & Magnetism – Lecture 9 Magnetic Fields Dale E. Gary Wenda Cao NJIT Physics Department.

Example: Magnetic Force Directions from Right Hand Rule

A B C D. Find currents through resistors Loop 1Loop 2Loop 3 Loop 4 I1I1 I2I2 I3I3 I5I5 I4I4 loop 1: loop 2: loop 3: nodes: Five independent equations.

Magnetism July 2, Magnets and Magnetic Fields  Magnets cause space to be modified in their vicinity, forming a “ magnetic field ”.  The magnetic.

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?

>78>63>42 >33 Average 57.2 Median 58.5 Highest 98 Lowest 18.

The Magnetic Field The force on a charge q moving with a velocity The magnitude of the force.

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

Chapter 28 Magnetic Fields Key contents Magnetic fields and the Lorentz force The Hall effect Magnetic force on current The magnetic dipole moment.

Magnetic Forces and Fields. Magnetic Force Right Hand Rule: Cross Product.

1308 E&M Direct current, resistance, and circuits 1.At 20.0°C, a mainly silicon resistor has a resistance of 585 Ω, and a tungsten resistor has a resistance.

Chapter 29 Magnetism Ferromagnetism

Magnetic Fields Chapter 26 Definition of B

Chapter 26 Magnetism Poles – Location where the magnetic effect is the strongest –North pole – pole of a freely suspended magnet which points towards geographic.

1. Two long straight wires carry identical currents in opposite directions, as shown. At the point labeled A, is the direction of the magnetic field left,

The Magnetic Field The force on a charge q moving with a velocity The magnitude of the force.

P212c28: 1 Chapter 28: Magnetic Field and Magnetic Forces Iron ore found near Magnesia Compass needles align N-S: magnetic Poles North (South) Poles attracted.

General Physics II, Additional Questions, By/ T.A. Eleyan 1 Additional Questions Lec. 15,16.

Wed. Feb. 11 – Physics Lecture #29 Magnetic Forces 1. Magnetic Forces on Charged Particles 2. Motion in Magnetic Fields 3. Magnetic Forces on Current-Carrying.

Magnetism1 Review on Magnetism Chapter 28 Magnetism2 Refrigerators are attracted to magnets!

TUesday, April 12, PHYS Dr. Andrew Brandt PHYS 1444 – Section 02 Review #2 Tuesday April 12, 2011 Dr. Andrew Brandt TEST IS THURSDAY 4/14.

When charged particles move through magnetic fields, they experience a force, which deflects them Examples of such particles are electrons, protons, and.

Physics 121 Practice Problem Solutions 09 Magnetic Fields

Magnetic field Chapter 28.

Lecture 27 Magnetic Fields: II

Magnetic Field and Magnetic Forces

Magnetism Chapter 27 opener. Magnets produce magnetic fields, but so do electric currents. An electric current flowing in this straight wire produces a.

Slide 1Fig 29-CO, p.895. Slide 2  The direction of the magnetic field B at any location is the direction in which a compass needle points at that location.

CH Review -- how electric and magnetic fields are created Any charged particle creates an electric field at all points in space around it. A moving.

Magnetic Force on Moving Charges

Chapter 21 Magnetic Force.

Chapter 21 Magnetic Force. Clicker A)1.7 V B)3.4 V C)5.1 V D)6.8 V E)12 V What is the potential difference across the clams when I take bulb out of circuit?

Problem 4 A metal wire of mass m can slide without friction on two parallel, horizontal, conducting rails. The rails are connected by a generator which.

AP Physics Summer Institute Free-Response-Questions MAGNETISM.

8.4 – Motion of Charged Particles in Magnetic Fields

Magnetic Force on Moving Charged Particles.

Electricity and Magnetism

Electric Field & Magnetic Field

Charged Particles in Electric and Magnetic Fields

The Motion Of Charged Particles in Magnetic Fields

Magnetic Fields Contents: Overview What Produces Magnetic Field

A proton is accelerated from rest through a potential difference of V

Electricity and Magnetism

Textbook: 8.2 Homework: pg. 396 # 3 – 5 pg. 402 # 1 – 3 , 10

Magnetic Fields Chapter 26 Definition of B

Magnetic Fields Exert Forces on Moving Charges

Chapter 28 Magnetic Fields

Presentation transcript:

The force on a charge q moving with a velocity The magnitude of the force

The angular velocity

Using Crossed and Fields Velocity selector independent of the mass of the particle!

Mass spectrometer

Thomson’s e/m experiment 1897: Cavendish Laboratory in Cambridge, England

Electron motion in a microwave oven A magnetron in a microwave oven emits electromagnetic waves with frequency f=2450 MHz. What magnetic field strength is required for electrons to move in circular paths with this frequency?

Exercise 1 An electron, q= C moves with velocity It enters a magnetic field with What is the force on the electron?

Problem 5 Hall effect: The magnetic force on the charge carries in a wire can be used to determine their sign. Show that there will be an electric field, set up inside a wire in a magnetic field, that is perpendicular to the direction of the current. You should be able to show that the sign of the field depends on whether the mobile charges are positive or negative.

You place a slab of copper, 2.0 mm thick and 1.5 cm wide, in a uniform magnetic field with magnetic field with magnitude 0.40 T. When you run a 75-A current in the +x direction, you find by careful measurement that the potential at the left side of the slab is 0.81  V higher than at the right side of the slab. From this measurement, determine the concentration of mobile electrons in copper.

Exercise 3 A wire of length l and mass m is suspended as shown. A uniform magnetic field of magnitude B points into the page. What magnitude and direction would a current, passing through a wire, have to have so that the magnetic and gravitational forces would cancel?

Problem 4 A metal wire of mass m can slide without friction on two parallel, horizontal, conducting rails. The rails are connected by a generator which delivers a constant current i to the circuit. There is a constant, vertical magnetic field, perpendicular to the plane of the rails. If the wire is initially at rest, find its velocity as a function of time. i B l generator

Current carrying wires 1820 Hans Christian Oersted Hans Christian Ørsted

The angular velocity

Uniform magnetic field,

Uniform, When a charged particle has velocity components both perpendicular and parallel to a uniform magnetic field, the particle moves in a helical path. The magnetic field does no work on the particle, so its speed and kinetic energy remain constant.

Example: A proton ( ) is placed in the uniform magnetic field directed along the x-axis with magnitude T. Only the magnetic force acts on the proton. At t=0 the proton has velocity components Find the radius of the helical path, the angular speed of the proton, and the pitch of the helix (the distance traveled along the helix axis per revolution).

Ampere’s Law The field produced by an infinite wire

The Field Produced by a Straight Wire