Don’t forget your project is due soon Project due on Friday March. Individually, students are to make an informational brochure explaining how electricity.

Slides:

Advertisements

Similar presentations

The Direct Current (DC) Electric Motor

Advertisements

Basics in Magnetism Electromagnetism Force on a Current-Carrying Wire EM Induction Transformer Generators Electric Motors ELECTROMAGNETISM.

Motors and Generators. Electromagnets Magnet Poles Parts of a Basic DC Motor Electric Generators From the Power Plant to Your Home.

Ch 8 Magnetism.

Physics 12 Direct Current Motors. Joke of the day: An object at rest stays at rest and an object in motion stays in motion with the same speed and in.

Electricity How is it made?.

Motors! (project science 2006). ? questions about motors… what is a motor? why do people use motors? why learn about motors?

12.5 The Motor Principle When English physicist Michael Faraday saw that an electric current in a wire caused a compass needle to move, he was curious.

Basics in Magnetism Electromagnetism Force on a Current-Carrying Wire EM Induction Transformer Generators Electric Motors ELECTROMAGNETISM.

Electric Motor By Princess Barcega APG School Powerpoint hosted on Please visit for 100’s more free powerpoints.

UNIT FIVE: Electricity and Magnetism

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

DC Motors Taken from a variety of sources including: and ty/generators/index.html.

Electricity Electricity and Magnetism. Unit 5: Electricity and Magnetism Chapter 16: Electromagnets and Induction 16.1 Electric Current and Magnetism.

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

Electric Motors. How to build an Electric Motor mY mY.

LO: Understand the uses of electromagnets

Magnetism Physical Science. What is a magnet?  2000 years ago the Greeks discovered a mineral that attracted things made of iron.  They named this mineral.

Electricity and Magnetism Chapter 7 Section 1 Chapter 8 Sections 2 & 3.

Chapter 7 Review Test on Friday, December 7!. Magnetic field lines flow from a magnet’s  A. north pole to south pole  B. south pole to north pole 

BEX – Basic Electricity – Unit 13 Magnetic Motors REF: Delmar’s Standard Textbook of Electricity, Unit 13.

Physics A First Course Electricity and Magnetism Chapter 17.

Magnetism. Properties of Magnets zAll magnets have two areas of strongest force, called poles. zEach magnet has one north pole and one south pole. zLike.

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.

Electricity and magnetism connection. History In 1820 Hans Christian Oersted discovered electricity passing through a wire created a magnetic field However.

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

Electricity and Magnetism Electric Power Magnets Magnetic Field Electromagnets Electromagnetic Induction Transformers Positive and Negative Charge Conductors.

17.3 Electric motors and generators

ELECTROMAGNETISM CHAPTER 18, Section 2, pages

Electromagnetic Induction Create electric current from changing magnetic fields.

Electromagnetic Induction Notes CP Physics Ms. Morrison.

Magnetism Chapter 24.

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

Electric Current You Light Up My Life. SC Standards PS 6-10 Compare alternating current (AC) and direct current (DC) in terms of the production of electricity.

Chapter 7 (3-5) Magnetism from Electricity from Magnetism.

Chapter 22 Magnetism and Its Uses. Magnetism  Discovered over 2000 years ago by the Greeks. Named after Magnesia, Turkey.  Magnetic Force –You can feel.

Georgia Performance Standard

Chapter 22 Electromagnetic Induction. When a coil of wire is in a magnetic field, the magnetic flux Ф is the strength of the field B multiplied by the.

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

Alternating and Direct Current Direct Current (DC) is the one way flow of electrical charge from a positive to a negative charge. Batteries produce direct.

Ch. 8 - Magnetism SPS10. Students will investigate the properties of electricity and magnetism. b. Explain the flow of electrons in terms of alternating.

21.3 Electric Energy Generation and Transmission

Electricity, Magnetism, and Motion Chapter 3 Section 2 Pages

Introduction to the Electric Motor. Electric Motors are based on Magnets, Electromagnets and The Law of Magnetic Poles.

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

Dynamic and static induced EMFs We can produce the EMF by dynamic or static conductors. In the first case the field remains stationary and the conductor.

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]

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

Magnetism and Electricity

Topic 6 - Generators and Motors A device that converts mechanical energy (energy of motion – windmills, turbines, nuclear power, falling water, or tides)

21.1 Magnets and magnetic fields

GENERATORS AND MOTORS Topic 6. Electromagnets When a soft iron core is inserted into a coil of wire and a current is passed through the wire, an even.

Mr. Fleming. D. 7 Explain how heat is used to generate electricity.

Effects of Magnetic Fields and Producing Current

Magnetic Fields and Electric Currents

Electromagnetism.

What is a Motor?

UNIT FIVE: Electricity and Magnetism

Electricity Generation.

DO NOW QUESTION: How did the permanent magnet make the electromagnet turn in the electric motor?

Electric Motor By Saba Junaid

Producing Electric Current

ELECTRICITY AND MAGNETISM

Energy Transformation

Charging by Magnetism Since you can create a magnetic field by running electricity through a wire, can you create electricity using a magnetic field?

Electricity & Magnetism

Electromagnets.

Motor Vocabulary.

Presentation transcript:

Don’t forget your project is due soon Project due on Friday March. Individually, students are to make an informational brochure explaining how electricity is produced and transported from the power plant to your house.

The rubric Again It clearly and accurately explains how electricity is generated (5pts) fully explains the role of transformers (3pts) explains the relative voltage and current in steps on the way to your house (3 pts) It clearly defines all important terms (4 pts) on time (5 pts) and aesthetically pleasing (5pts)

An electric current is not generated unless the magnetic field is moving relative to the copper wire, or the copper wire is moving relative to the magnetic field. If you place a magnet and a conductor (copper wire), in a room together there will be no electric current generated. This is because motion, from our equation for electricity, is missing!

So simple electric generators found in power plants contain, magnets and copper wire that when put into motion relative to one another create the electric current that is sent out to homes. The major problem in electricity generation Is where does the Motion come from that keeps the copper wire and magnets moving relative to one another.

DC Electric Motors By the end of this you need to know the 5 parts of any DC electric motor and their function

The 5 parts

The armature The armature is an electromagnet that spins when in the presence of the magnetic field of a permanent magnet

Brushes and Power Source The power source creates current when the brushes connect it to the armature. The armature then becomes a temporary magnet and begins to spin.

The Comutator The commutator changes the direction of the current in the armature. Alternating current electric motors don’t use commutators.

Electric Motors recap An electric motor uses the sideways push of a magnetic field to turn a current-carrying wire loop. Electric motors use a commutator to change the direction of the current in the loop. Alternating current electric motors do not use commutators.

The stationary windings of a large electric motor. magnetic forces underlie the operation of such motors. Michael Faraday ( ) built the first electric motor and discovered magnetic induction.