A gold ring is dropping toward vertical a bar magnet whose south end is its upper end. The ring is oriented horizontally, and as it continues to drop,

Slides:

Advertisements

Similar presentations

Chapter 22 Magnetism AP Physics B Lecture Notes.

Advertisements

Electromagnetism Quiz Review Mr. Davis Baltimore Poly.

The Final Round Kleenex available in departmental office.

Faraday Law Induction By Trish Loeblein Learning Goals:

ECE 201 Circuit Theory I1 Magnetic Field Permanent magnet –Electrons spinning about their own axis in a particular alignment Charges in motion –Electric.

Physics 6B Magnetic Forces and Fields Prepared by Vince Zaccone For Campus Learning Assistance Services at UCSB.

EXAM 1 Distribution Mean = 75.0 Standard deviation = 11.7.

Lenz’s Law: B-fields form to produce a frictional resistance against the changes that create them. Generated current creates B-fields which OPPOSE the.

ConcepTest Clicker Questions College Physics, 7th Edition

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.

Positive charged particles headed toward the earth from space, would tend (at mid-latitudes) to reach the surface coming down from the 1. North 2. South.

Physics for Scientists and Engineers, 6e

by Richard J. Terwilliger Click on a Created by Richard J. Terwilliger July 2001.

Magnetism Magnetism is a property of certain metals that is due to the orientation of atoms within the material.

MAGNETISM MAMBO.

1. ____The polarity of an electromagnet can be determined using the second right-hand rule. 2. ____Current passing through a conductor is increased from.

© Shannon W. Helzer. All Rights Reserved. 1 Chapter 30 – Induction and Inductance.

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

Battery Paper Clip Coiled wire, resting in curve of paper clip End of wire with one side stripped of coating (not to scale) Disk Magnet Side View Front.

Where is the magnetic field of a bar magnet strongest? a) Outside the magnet, near the north pole of the magnet. b) Outside the magnet, near the south.

A horizontal copper loop is due east of, at the same elevation as, a straight horizontal wire carrying a steady current due north. What is the direction.

Using the “Clicker” If you have a clicker now, and did not do this last time, please enter your ID in your clicker. First, turn on your clicker by sliding.

ConcepTest 23.1a Magnetic Flux I In order to change the magnetic flux through the loop, what would you have to do? 1) drop the magnet 2) move the magnet.

A bar magnet is spinning clockwise as viewed from a position south of the magnet, about a horizontal, north-south axis that is perpendicular to, and passes.

PHYSICS 222 EXAM 2 REVIEW SI LEADER: ROSALIE DUBBERKE.

SI leader: Rosalie Dubberke

5. Magnetic forces on current

The wires of this solenoid are connected to a battery as shown: To an observer looking down the center of the solenoid from the left of the screen, (through.

1) 2) 3) 4) A mass oscillates displaying the Simple Harmonic Motion plotted in the position vs time graph at right. Which of the velocity vs time graphs.

1) drop the magnet 2) move the magnet upward

P3_Physicstatements. To experience the maximum force the wire needs to be Bar magnets are permanent magnets, they have 2 poles and they create magnetic.

1. ConcepTest 21.1a Magnetic Flux I In order to change the magnetic flux through the loop, what would you have to do? 1) drop the magnet 2) move the magnet.

Which one of the following laws involves an imaginary loop? a) Ampere’s Law b) Coulomb’s Law c) The Biot-Savart Law d) Gauss’s Law for the Electric Field.

UNIT FIVE: Electricity and Magnetism  Chapter 16 Electricity  Chapter 17 Magnetism.

Investigation 17B  Key Question: How are electricity and magnetism related? Electromagnets.

Read Ch. 19 First, a little background on Magnetism… As you know, magnets exert forces on one another… Just as electric charges produce electric forces,

Finally! Flux! Electromagnetic Induction. Objectives.

5/20/16 Oregon State University PH 213, Class #241 Changing Magnetic Flux: Faraday’s Law Mathematically, we can express the motion-induced voltage in a.

SCIENCE MUSEUM COMMUNITY SERVICE PROJECT 2013 The Physics Consultant INTERVIEW.

Exam 1Quiz 1Quiz 2 75  12 Avg score : 8  26  2 Single most common score : For most of you, your current quiz average and exam average are exactly.

Chapter Twenty-Two: Electricity and Magnetism

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?

Physics: Principles with Applications, 6th edition

5. Magnetic forces on current

Effects of Magnetic Fields and Producing Current

FB = -evB Motional EMF FE = -eE B E - eE = evB E = vB Vind = LE = LvB

Prepared by Dedra Demaree, Georgetown University

Induced Currents.

Direction of Induction

General Review Electrostatics Magnetostatics Electrodynamics

Electromagnetism It was observed in the 18th century that an electric current can deflect a compass needle the same way a magnetic field can, and a connection.

Chapter 20 Section 1 Section 1 Electricity from Magnetism.

Physics: Principles with Applications, 6th edition

When the switch is closed, what happens?

Magnets Test Review.

17.2 Electromagnets.

ConcepTest 30.3a Moving Wire Loop I

Magnetic Field Permanent magnet Charges in motion

Faraday’s Law of E&M Induction

Magnetic Field Permanent magnet Charges in motion

Chapter Twenty-Two: Electricity and Magnetism

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?

ConcepTest Clicker Questions College Physics, 7th Edition

Electromagnets Key Question: Investigation 17B

17.2 Electromagnets.

Magnetism Challenge.

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

Presentation transcript:

A gold ring is dropping toward vertical a bar magnet whose south end is its upper end. The ring is oriented horizontally, and as it continues to drop, it will encircle the bar magnet. But it is not encircling the bar magnet yet, it is dropping toward it. What is the direction of the current, if any, induced in the gold ring. a) Clockwise as viewed from above. b) Clockwise as viewed from below. c) No current is induced in the ring.

A bar magnet is hanging, south end down, at rest by a string tied to the ceiling. The lower end of the magnet is two centimeters above the floor. The magnet is centered over a copper loop which is lying flat on the floor. A person pulls the magnet eastward and lets go. The magnet swings down toward the loop. As it approaches the center of the ring, current is induced to flow in the loop in what direction? a) Clockwise as viewed from above. b) Clockwise as viewed from below. c) No current is induced to flow in the loop.

A silver hoop tightly encircles a vertical stick with a lot of wire with non-zero resistivity wrapped one way around it. The ends of the wire are connected across a huge, charged, capacitor. The capacitor is discharging through the wire making up the coil in such a manner that the current in the coil is clockwise as viewed from above. Find the current, if any, induced to flow in the hoop. a) Clockwise as viewed from above. b) Clockwise as viewed from below. c) There is no induced current.

Consider a wall clock whose second hand is a bar magnet whose north pole is the second indicator. Assume the clock to have a copper ring positioned above it like a halo. What is the direction of the current induced to flow in the copper ring when the second hand is between the 12 and the 3? a) Clockwise as viewed from above. b) Clockwise as viewed from below. c) No current is induced in the ring.

Consider a wall clock whose second hand is a bar magnet whose north pole is the second indicator. Assume the clock to have a copper ring positioned above it like a halo. What is the direction of the current induced to flow in the copper ring when the second hand is between the 3 and the 6? a) Clockwise as viewed from above. b) Clockwise as viewed from below. c) No current is induced in the ring.

Consider a wall clock whose second hand is a bar magnet whose north pole is the second indicator. Assume the clock to have a copper ring positioned above it like a halo. What is the direction of the current induced to flow in the copper ring when the second hand is between the 6 and the 9? a) Clockwise as viewed from above. b) Clockwise as viewed from below. c) No current is induced in the ring.