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Chapter 5 Electrostatics
Chapter 5 Electrostatics

Electromagnetic Induction(EMI)
Electromagnetic Induction(EMI)

... But wait…to have induction there must be a change in the magnetic field (therefore a change in the magnetic flux)!! ...
EMI (97-03)
EMI (97-03)

Magnetism
Magnetism

... force results from charged particles.  Magnetic force results from moving charges. Force of magnetic field on the charge ...
Magnetism - BAschools.org
Magnetism - BAschools.org

... iron items…etc.  used in motors ...
Magnetic Forces
Magnetic Forces

... Earth's base magnetic field is similar to that of a giant bar magnet. The solar wind warps this base field into a slightly different shape. However, in either case, Earth's magnetic field lines come together at the planet's poles... which is why compasses work, and is also why the aurora are most f ...
Electric generator
Electric generator

Chapter 6 Part1: Multiple choices
Chapter 6 Part1: Multiple choices

Physics: Magnets - John Madejski Academy
Physics: Magnets - John Madejski Academy

... Use this method to find the direction of the force in a motor:  Point your first finger in the direction of the magnetic field.  Point your second finger in the direction of the current.  Your thumb points in the direction of the force (motion). A DC motor works by passing a current through a wir ...
Magnets - John Madejski Academy
Magnets - John Madejski Academy

SPH 3U(G) TEST
SPH 3U(G) TEST

magnetism - University of South Alabama
magnetism - University of South Alabama

Magnetic Moment - UCSD Department of Physics
Magnetic Moment - UCSD Department of Physics

Magnetism and Electromagnetism Review Answers
Magnetism and Electromagnetism Review Answers

Class #28 Slides
Class #28 Slides

... Another Example of Faraday’s Law & Lenz’s Rule: Eddy-Current Braking A magnetic field points into the page as shown. For example, this field could be created by an electromagnet or between the poles of permanent magnets. A metal pendulum swings into the magnetic field. What happens to the motion of ...
R Ch 37 Electric Induction pg 1
R Ch 37 Electric Induction pg 1

MAGNETany material that attracts iron and materials that contain
MAGNETany material that attracts iron and materials that contain

... an object by means of  the electric field of  another object; that  objects have no direct  contact  ...
Name ______ period __
Name ______ period __

The total free energy of a magnetic substance
The total free energy of a magnetic substance

PPT
PPT

TAP410-0: Preparation for electromagnetic topic
TAP410-0: Preparation for electromagnetic topic

... Determine the induced current or emf (magnitude and direction) when there is relative motion between a conductor and a magnetic field. Explain the operation of a simple generator and a transformer. ...
Magnets and Electricity
Magnets and Electricity

... increases the strength of the electromagnet. • 8. A changing magnetic field induces an electric current in a conductor. • 9. A charged particle experiences no magnetic force when moving parallel to a magnetic field, but when it is moving perpendicular to the field it experiences a force perpendicula ...
Lecture 17: Magnetic induction: Faraday`s law
Lecture 17: Magnetic induction: Faraday`s law

Magnetism 1. Which of the following does not create a
Magnetism 1. Which of the following does not create a

Attract Repel To push away, as similar poles of two magnets push
Attract Repel To push away, as similar poles of two magnets push

< 1 ... 107 108 109 110 111 112 113 114 115 ... 118 >

Eddy current

Eddy currents (also called Foucault currents) are circular electric currents induced within conductors by a changing magnetic field in the conductor, due to Faraday's law of induction. Eddy currents flow in closed loops within conductors, in planes perpendicular to the magnetic field. They can be induced within nearby stationary conductors by a time-varying magnetic field created by an AC electromagnet or transformer, for example, or by relative motion between a magnet and a nearby conductor. The magnitude of the current in a given loop is proportional to the strength of the magnetic field, the area of the loop, and the rate of change of flux, and inversely proportional to the resistivity of the material.By Lenz's law, an eddy current creates a magnetic field that opposes the magnetic field that created it, and thus eddy currents react back on the source of the magnetic field. For example, a nearby conductive surface will exert a drag force on a moving magnet that opposes its motion, due to eddy currents induced in the surface by the moving magnetic field. This effect is employed in eddy current brakes which are used to stop rotating power tools quickly when they are turned off. The current flowing through the resistance of the conductor also dissipates energy as heat in the material. Thus eddy currents are a source of energy loss in alternating current (AC) inductors, transformers, electric motors and generators, and other AC machinery, requiring special construction such as laminated magnetic cores to minimize them. Eddy currents are also used to heat objects in induction heating furnaces and equipment, and to detect cracks and flaws in metal parts using eddy-current testing instruments.
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