A magnetic field exerts a force on a moving charged particle which is A.in the direction of the magnetic field. B.in the direction of the motion of the.

Slides:

Advertisements

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,

Advertisements

Unit 4 day 2 – Forces on Currents & Charges in Magnetic Fields (B) The force exerted on a current carrying conductor by a B-Field The Magnetic Force on.

Lecture 20 – Forces on Currents 26.6 Magnetic Forces on Current Carrying Conductors.

Electromagnets April. Electricity vs. Magnetism ElectricityMagnetism + and -North and South Electric field, E caused by electric charges, stationary or.

STARTER Which way does the current point in this wire? Magnetic Forces, Fields, and Directions.

Motion of Charged Particles in Magnetic Fields

Lecture 24 Faraday’s Law April 1. Electromagnetic Induction Slide 25-8.

Chapter 32 Magnetic Fields.

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

When a charged particle moves through a magnetic field, the direction of the magnetic force on the particle at a certain point is Q in the direction.

Chapter 22 Magnetism.

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

Magnetic Fields Faraday’s Law

Ampere’s Law PH 203 Professor Lee Carkner Lecture 17.

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.

Ampere’s Law Physics 102 Professor Lee Carkner Lecture 19.

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 for Scientists and Engineers II, Summer Semester Lecture 11: June 15 th 2009 Physics for Scientists and Engineers II.

When a charged particle moves through a magnetic field, the force exerted on the particle by the field depends upon A.the velocity of the particle B.the.

AP Physics C Chapter 28.  s1/MovingCharge/MovingCharge.html s1/MovingCharge/MovingCharge.html.

Electromagnetic waves require a medium to travel through. A.True B.False.

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

Whiteboard Challenge! I II In the scenarios shown above, two identical magnets are held near two identical loops of conducting wire. In case I, the magnet.

Breaking a bar magnet in half will produce A.a single north magnetic monopole. B.a single south magnetic monopole. C.one north and one south monopole.

Gauss’ Law for magnetic fields There are no magnetic “charges”.

Chapter 21 Magnetic Forces and Magnetic Fields Magnetic Fields The needle of a compass is permanent magnet that has a north magnetic pole (N) at.

In order to generate the magnetic field as depicted, in which direction must the current flow through the conducting wire? A.Up B.Down C.Neither works.

AP Physics C III.D – Magnetic Forces and Fields. The source and direction of magnetic fields.

Whiteboard Warmup! I II In the scenarios shown above, two identical magnets are held near two identical loops of conducting wire. In case I, the magnet.

Magnetic Forces and Torques

Moving Electrical Charge Magnetic Field Moving Electrical Charge The Hall Effect The net torque on the loop is not zero. Hall coefficient magnetic dipole.

Reading Quiz #9 1. What is the equivalent resistance of a series of resistors? a) sum of the individual resistances b) inverse of the sum of the inverse.

Today’s agenda: Induced emf. You must understand how changing magnetic flux can induce an emf, and be able to determine the direction of the induced emf.

Magnetic Fields Chapter The force exerted by a magnetic field Definition of B 26.3 Motion of a charged particle in a magnetic field Applications.

If you take a magnet and cut it in three sections between the north and south pole, then A.you have three magnets with N/S poles. B.you have two magnets.

For a long conducting wire, the magnetic field induced by the current is strongest A.on the surface of the wire. B.in the interior of the wire. C.some.

Lecture 23—Faraday’s Law Electromagnetic Induction AND Review of Right Hand Rules Monday, March 30.

Forces on Current Carrying Wires. If a current carrying wire produces a magnetic field, we should expect that magnets exert a force on the wire Direction.

Magnets and the magnetic field Electric currents create magnetic fields Magnetic fields of wires, loops, and solenoids Magnetic forces on charges and currents.

APHY201 12/5/ Force between Two Parallel Wires   Wire #1 has a magnetic field that produces a force on wire #2.

Lecture 27 Magnetic Fields: II

General Physics 2Magnetism1 Mass Spectrometer Used to identify atoms and their concentrations in a sample of material. Between S1 and S2, molecules go.

20 Magnetic Field & Forces. Magnetism S N S N Extended…

Physics 212 Lecture 14, Slide 1 Physics 212 Lecture 14 Biot-Savart Law :05.

Magnetic field lines have end points. A.True B.False.

For the magnetic field to exert the force depicted in the figure on the right, the charged particle must be traveling in what direction? A.to the left.

Finishing 21, Starting 22 What a revolting development!

7.2 Magnetic Field Strength p. 274 Calculating Magnetic Field Strength A moving charged particle that enters a magnetic field at any direction other than.

Absolute zero is simply a linear extrapolation used to locate at point at which gasses reach zero pressure. A.True B.False.

According to Newton’s Third Law, F A on B = A.F B on A B.-F A on B C.-F B on A.

The magnetic force on the moving charges pushes the wire to the right.

The Torque on a Current-Carrying Coil

WEEK 4 Day 1 Magnetic field

Physics 014 Magnetic Fields.

Force acting on a charged particle moving through a magnetic field

What is the charge of the particles in the above three paths?

General Physics (PHY 2140) Lecture 14 Electricity and Magnetism

Magnetic Force on a Current-Carrying Conductor

Magnetism Physics /30/2018 Lecture XII.

Physics 133 Electricity & magnetism

Magnetic Fields Chapter 26 Definition of B

Today’s agenda: Induced emf. Faraday’s Law. Lenz’s Law. Generators.

Magnetism Magnetic Force.

Magnetic Forces on Conductors

The Motion of Charged Particles in Magnetic Fields

Chapter 28 Magnetic Fields

Stationary Magnetic field

Magnetism Magnetic Force.

Presentation transcript:

A magnetic field exerts a force on a moving charged particle which is A.in the direction of the magnetic field. B.in the direction of the motion of the particle. C.in a direction perpendicular to both the field and motion of the particle.

A magnetic field only exerts a force on a charged particle if the particle is moving. A.True B.False

The force that a magnetic field exerts on a segment of a conductor is proportional to A.the current in the conductor B.the length of the conductor C.the angle between the field and the conductor D.All of the above

The net force a magnetic field exerts on a conducting loop is A.zero B.proportional to the current in the loop C.the area of the loop D.B and C.

The force a magnetic field exerts on a conducting loop can create a torque. A.True B.False

The torque exerted on a solenoid by a magnetic field force depends on the number of loops in the solenoid. A.True B.False