L 29 Electricity and Magnetism [6] Faraday’s Law of Electromagnetic Induction –induced currents –electric generator –eddy currents electromagnetic waves.

Slides:

Advertisements

Similar presentations

Faraday Generators/ Motors Induced Current Lenz’s Law/ Changing B

Advertisements

Faradays Law of Induction A changing magnetic field induces an electric field. The induced electric field causes a current to flow in a conductor.

Electric Generators and Motors 1 Electric Generators and Motors.

Electromagnetic Induction

L 28 Electricity and Magnetism [6] magnetism Faraday’s Law of Electromagnetic Induction –induced currents –electric generator –eddy currents Electromagnetic.

L 28 Electricity and Magnetism [6] magnetism Faraday’s Law of Electromagnetic Induction –induced currents –electric generator –eddy currents Electromagnetic.

Photographs of large cities, such as Seattle, Washington, are visible reminders of how much people rely on __________ energy. electrical.

Assessment Questions 1-8. Generating electric current Electric current creates a magnetic field LT #2: Demonstrate and explain that an electric current.

 Electricity and magnetism are different aspects of a single force: electromagnetism  Electricity = result of charged particles  Magnetism = result.

TRANSFORMERS?. Effects of electric current An electric current that flows in a conductor has a number of effects: 1. HEATING The friction caused by the.

Day 4: Transformers Definition of a Transformer Transformer Windings Transformer Operation using Faraday’s Law Step-up & Step-down Transformers Turns Ratio.

Magnetism-Magnetic Induction By David Kimball, Emma Kaplan, Nate Rudolph.

Electromagnetic Induction

Electromagnetic induction Mohammed Rashed Hamad Abdulrahman Abdulaziz Abdulrahman

Current Current There are two kinds of current: There are two kinds of current:

Electromagnetic Induction Working independently in 1831, Michael Faraday in Britain and Joseph Henry in the United States both found that moving a loop.

Photographs of large cities, such as Seattle, Washington, are visible reminders of how much people rely on electrical energy.

6.11 Vocabulary Electromagnet: type of magnet in which the magnetic field is produced by a flow of electric current Core: metal (iron) center of an electromagnet.

L 29 Electricity and Magnetism [6] Review Faraday’s Law of Electromagnetic Induction induced currents electric generator eddy currents electromagnetic.

Magnetism and Uses Goals: magnetism, source, types, electromagnetism, magnetic materials, force calculations, motors, generators and transformers.

Electromagnetic Induction Create electric current from changing magnetic fields.

Physics 12 Mr. Jean May 4 th, The plan: Video clip of the day AC/DC power generation.

Motional EMF This is the emf induced in a conductor moving through a magnetic field. Examples on sheet 10 To change the magnetic flux we can change: 1.the.

Reading Quiz 2. Electromagnetic induction was discovered by Faraday.

Electromagnetic Induction Notes CP Physics Ms. Morrison.

Generator and Transformer. Moving Conductor If a straight conductor is moved in a path perpendicular to a magnetic field, a current is induced in the.

III. Producing Electric Current

MagnetismSection 3 Section 3: Electric Currents from Magnetism Preview Key Ideas Bellringer Electromagnetic Induction The Electromagnetic Force Transformers.

Copyright © 2009 Pearson Education, Inc. Chapter 31: Faraday’s Law.

Bellringer What is one way to increase the strength of the magnetic field of a current?

13.5 Transformers Different electrical devices require different amounts of electrical energy to operate. An electric stove requires a lot of electrical.

Electro Magnetic Effects By Devashish Pahadi. Electro Magnetic Induction It is process in which a conductor goes through stationary magnetic field lines.

Physics Gang Signs Review

Magnetism Part 3: Electric Currents From Magnetism

Electromagnetic induction The phenomenon in which an electric field is generated in an electric circuit when the number of magnetic field lines passing.

Electromagnetic Induction. Current can be created in a wire by a magnetic field British scientist Michael Faraday and American scientist Joseph Henry.

1.If a magnet is moved into a coil of wire a current is induced in the wire. 2.If the magnet is moved out of the coil the direction of the current is reversed.

21.3 Electric Energy Generation and Transmission

Magnetic Induction. Key Points about Induction  If the current in the primary circuit is constant, then the current in the secondary circuit is zero.

Electromagnetic Induction. Motion of a magnet in a coil or loop creates (induces) voltage If coil is connected to complete circuit, current flows Relative.

Electromagnetic Induction In this chapter we will explore; Describe the law of electromagnetic induction and use Lenz’s law to predict the direction of.

L 29 Electricity and Magnetism [6] Review- magnetism- what is a magnet? Faraday’s Law of Electromagnetic Induction –induced currents –electric generator.

L 29 Electricity and Magnetism [6]

L 29 Electricity and Magnetism [6]

Chapter 21.  Electromagnetic induction is the process of generating a current by moving an electrical conductor relative to a magnetic field.  This.

Home Electromagnetism. Home The Motor Effect 16/02/2016 Aim: To use Flemming’s Left Hand Rule To explain how a motor works To construct a motor.

L 28 Electricity and Magnetism [6] magnetism Faraday’s Law of Electromagnetic Induction –induced currents –electric generator –eddy currents Electromagnetic.

Ch 21-Magnetism Magnetism a property of matter in which there is a force of attraction or repulsion between like and unlike poles.

Faraday’s Law of Induction Magnetic flux  = A B cos   B A A changing magnetic flux generates an induced voltage (emf = electromotive force) V = [emf]

Generators, Motors, Transformers

L 29 Electricity and Magnetism [6] Faraday’s Law of Electromagnetic Induction induced currents electric generator eddy currents electromagnetic waves.

Electromagnetic Induction 4 Quiz 1.Who discovered electromagnetic induction? a)Michael Faraday b)Thomas Edison c)Joseph Henry 2.A transformer.

Electricity & Magnetism Ch 9 6 th grade. How do charges interact? Atoms contain charged particles called electrons (-) and protons (+). If two electrons.

Electrical Energy Generation and Transmission Physical Science Chapter 21 Section 3.

Electromagnetic Induction Magnetism can induce electrical currents in wires You just have to keep motion between the magnets and wires.

Electromagnetic Induction. When a magnet and a wire move relative to each other, a voltage is induced Amount of voltage produced depends on: –Speed: High.

Unit 51: Electrical Technology The Characteristics and Principles of AC and DC Generators and the features of a Range of difference Power Station.

 Electromagnetic Induction – The production of an emf (the energy per unit charge supplied by a source of electric current) in a conducting circuit by.

The Question: If an electric current in a wire produces a magnetic field, is the reverse true? …i.e. Does a magnetic field produce a current? The Answer:

Electromagnetic Induction. the process of generating a current in a circuit by passing a wire through a magnetic field.

L 28 Electricity and Magnetism [6] magnetism Faraday’s Law of Electromagnetic Induction –induced currents –electric generator –eddy currents Electromagnetic.

L 29 Electricity and Magnetism [6]

Electromagnetic Induction

Electromagnetism Sri. S.P.JANWADKAR Associate Professor & Head

L 29 Electricity and Magnetism [6]

Electric Currents from Magnetism

MAGNETISM AND ITS USES Producing Electric Current

Producing Electric Current

L 29 Electricity and Magnetism [6]

Presentation transcript:

L 29 Electricity and Magnetism [6] Faraday’s Law of Electromagnetic Induction –induced currents –electric generator –eddy currents electromagnetic waves

Michael Faraday ( ) discovered electromagnetic induction led to the discovery of the generation of electricity had only a brief elementary education one of the greatest scientists of all time declined to accept knighthood. gave Christmas lectures for kids

Faraday’s Law of Electromagnetic induction Faraday thought that if currents could produce magnetic fields, magnetic fields should be able to produce currents He was correct with one important requirement  the magnetic field must be changing in some way to induce a current the phenomenon that a changing magnetic field can induce a current is called electromagnetic induction

Induced currents (a)  When a current is turned on or off in coil A, a current briefly appears in coil B  The current in coil B is called an induced current. The current in B is only present when the current in A is changing. A B Switch

Induced currents (b) a)No current is induced if the magnet is stationary. b)When the magnet is pushed toward the coil or pulled away from it an induced current appears in the coil. c)The induced current only appears when the magnet is being moved

Induced currents (c) If an AC (time varying) current is used in the primary circuit, a current is induced in the secondary windings. If the current in the primary windings were DC, there would be NO induced current in the secondary circuit.

electric generators When a coil is rotated in a magnetic field, an induced current appears in it. This is how electricity is generated. Some external source of energy is needed to rotate the turbine which turns the coil.

Michael Faraday on his discovery While attempting to explain a discovery to the Prime Minister of Great Britain he was asked, 'But, after all, what use is it?' Faraday replied, 'Why sir, there is the probability that you will soon be able to tax it.' When the Prime Minister asked of a new discovery, 'What good is it?', Faraday replied, 'What good is a new-born baby?'

The transformer The voltage on the secondary depends on the number of turns on the primary and secondary. Step-up  the secondary has more turns than the primary Step-down  the secondary has less turns than the primary

Eddy currents When time varying magnetic fields are around, currents can appear in nearby conductors --- these are eddy currents an induction stove uses eddy currents to cook food Only the metal pot gets hot, not the glass pot or the stove.