Presentation is loading. Please wait.

Presentation is loading. Please wait.

Charge! Electricity and Magnetism Michael Cooke Rice University Amber Johnson Fermilab.

Published byLaura Henderson Modified over 9 years ago

Similar presentations

Presentation on theme: "Charge! Electricity and Magnetism Michael Cooke Rice University Amber Johnson Fermilab."— Presentation transcript:

1 Charge! Electricity and Magnetism Michael Cooke Rice University Amber Johnson Fermilab

2 What is Charge?

3 ● When atoms don't have as many electrons as they do protons, they carry a charge! ● How do they ACT?

4 What is Charge? ● When atoms don't have as many electrons as they do protons, they carry a charge! ● Opposite charges attract ● Like charges repel

5 Where have YOU seen charge? ● “Stuck” charges are also called “Static Electricity”... ● Everyday examples are: – ?

6 Where have YOU seen charge? ● “Stuck” charges are also called “Static Electricity”... ● Everyday examples are: – Socks in the dryer – Walking around in your socks on carpet – Getting out of the car in winter – Lightening!

7 Charge in Action! ● We need some volunteers! ● We have some balloons and some string... – Can you show us how like charges repel? – How can you test for charge? (Electroscope!) ● We also have some wool and plastic... – What things get attracted to a static charge? – Are you surprised at what does & does not? Balloon Demo

8 Electricity is Moving Charge! ● How can we make charges move?

9 Electricity is Moving Charge! ● How can we make charges move? ● We need a volunteer! – We have some lemons, copper, zinc and a clock – Can you make the clock work?

10 Electricity is Moving Charge! ● How can we make charges move? ● We need a volunteer! – We have some lemons, copper, zinc and a clock – Can you make the clock work? ● This is a chemical generator! – What are some other examples of chemicals creating electricity?

11 Batteries!

12 More ways to make electricity... ● Not all of our electricity comes from batteries... ● We need another volunteer! – We want to light a light bulb...

13 More ways to make electricity... ● Not all of our electricity comes from batteries... ● We need another volunteer! – We want to light a light bulb... ● This is a mechanical generator – What other mechanical generators can you think of?

14 Power Plants!

15 Circuits ● Electricity needs to flow from high voltage to low voltage – Moving electricity is called CURRENT

16 Circuits ● Electricity needs to flow from high voltage to low voltage – Moving electricity is called CURRENT – A lot of current can be – A lot of current can be dangerous!

17 Circuits ● Electricity needs to flow from high voltage to low voltage – Moving electricity is called CURRENT – A lot of current can be dangerous! ● If there's a break in a circuit, current won't flow! – There are “open,” “closed” and “short” circuits – Help us make some circuits!

18 More about circuits... ● There is a special relationship between voltage, resistance and current! Simple Circuit Demo

19 More about circuits... ● There is a special relationship between voltage, resistance and current! ● How fast do electrons and electricity really move? Simple Circuit Demo Electrons and Electric Signals

20 Magnetism ● What is a magnet? – How does it act? – What kinds have you seen? – What happens to non-magnets around magnets?

21 Magnetism ● What is a magnet? – How does it act? – What kinds have you seen? – What happens to non-magnets around magnets? ● We need another volunteer! – What can you pick up with a magnet? ● Is it the same as we picked up with a static charge? ● Do magnets carry a charge? – What will the magnetic force go through?

22 A Compass is a Magnet! ● Compasses align with magnetic field lines – What does that imply?

23 A Compass is a Magnet! ● Compasses align with magnetic field lines – What does that imply? ● The Earth is a (really, really big) magnet!

24 Electricity & Magnetism ● Special things happen when you have a changing magnetic field... Changing Magnetic Fields

25 Electricity & Magnetism ● Special things happen when you have a changing magnetic field... ● This is how power plants generate the electricity we use every day! – Each type of plant uses something different to turn the magnets: ● Wind, water, or steam is usually used ● Coal, natural gas, and fission just make steam! Changing Magnetic Fields

26 Magnetism & Electricity ? ● We can also make magnets out of electricity! – A loop of current creates a magnetic field – More loops = more magnetic field!

27 Magnetism & Electricity ? ● We can also make magnets out of electricity! – A loop of current creates a magnetic field – More loops = more magnetic field! ● We need a volunteer! – What can you pick up with an electromagnet? – What does the electromagnet do to a compass?

28 Magnetism & Electricity ? ● We can also make magnets out of electricity! – A loop of current creates a magnetic field – More loops = more magnetic field! ● We need a volunteer! – What can you pick up with an electromagnet? – What does the electromagnet do to a compass? ● What other electromagnets have you seen?

29 Everyday Electromagnets

30 Faraday and Lenz ● Faraday's Law tells us that a changing magnetic field induces a current – This is what made power plants run! ● Lenz's Law tells us the consequences...

31 Faraday and Lenz ● Faraday's Law tells us that a changing magnetic field induces a current – This is what made power plants run! ● Lenz's Law tells us the consequences... ● We need another volunteer!

32 Faraday and Lenz ● Faraday's Law tells us that a changing magnetic field induces a current – This is what made power plants run! ● Lenz's Law tells us the consequences... ● We need another volunteer! – The “induced electromagnet” creates a field that opposes the changing magnetic field! – You don't get something for nothing!!

33 Particle Accelerators at Home! ● Did you know that you probably have a particle accelerator at home right now?

34 Particle Accelerators at Home! ● Cathode Ray Tubes, the original kind of TVs, are particle accelerators!

35 Particle Accelerators at Home! ● Cathode Ray Tubes, the original kind of TVs, are particle accelerators! ● We need a volunteer! – Magnets don't just effect other magnets, they also bend moving charge – Electromagnets in your TV make a singe electron beam draw a moving picture

36 Back to Charge... ● A Van de Graaff generator creates a large voltage difference ● We've learned a lot about static and moving charges today... ● Help us guess what will happen when we experiment with the Van de Graaff!

37 Questions & Answers ● It has been a fun day! Thank you for being such good hosts!! ● Any questions about charge, electricity or magnetism?

38 Questions & Answers ● It has been a fun day! Thank you for being such good hosts!! ● Any questions about charge, electricity or magnetism? ● Any questions about physics, science, scientists or Fermilab?

39 Thank You!!! ● Please visit Fermilab anytime! – The Lederman Center has lots of activities to help you learn about what we do at Fermilab – We have buffalo and prairie trails, too! ● Useful links: – Fermilab Education Office: http://www-ed.fnal.gov – American Science & Surplus: http://www.sciplus.com/ – Java Demos: http://www.colorado.edu/physics/phet

Download ppt "Charge! Electricity and Magnetism Michael Cooke Rice University Amber Johnson Fermilab."

Similar presentations

Electric Charge Static Electricity

Electric Charge Static Electricity
ELECTRICITY AND MAGNETISM. INSULATORS AND CONDUCTORS Conductors are materials that are good at carrying an electric charge. Good conductors of electricity.

ELECTRICITY AND MAGNETISM. INSULATORS AND CONDUCTORS Conductors are materials that are good at carrying an electric charge. Good conductors of electricity.
Unit 11 Magnetism.

Unit 11 Magnetism.
Electricity Active Physics. The Atom All matter is made up of atoms Atoms are made up of 3 types of particles protons, electrons and neutrons Protons.

Electricity Active Physics. The Atom All matter is made up of atoms Atoms are made up of 3 types of particles protons, electrons and neutrons Protons.
The Physics of Electricity & Magnetism. I wonder what would happen if I put these in my ears?

The Physics of Electricity & Magnetism. I wonder what would happen if I put these in my ears?
Electricity and Magnetism By: Victoria. Atom A atom has 3 main parts that are proton, neutron, and electron. there is also a nucleus and a electron cloud.

Electricity and Magnetism By: Victoria. Atom A atom has 3 main parts that are proton, neutron, and electron. there is also a nucleus and a electron cloud.
Electricity & Magnetism Physical Science. Static Electricity Atoms are made of charged particles: – Electrons: orbit the nucleus of the atom and have.

Electricity & Magnetism Physical Science. Static Electricity Atoms are made of charged particles: – Electrons: orbit the nucleus of the atom and have.
S.MORRIS 2006 Electricity and Magnetism More free powerpoints at www.worldofteaching.com All you need to be an inventor is a good imagination and a pile.

S.MORRIS 2006 Electricity and Magnetism More free powerpoints at All you need to be an inventor is a good imagination and a pile.
Magnetism & Electromagnetism

Magnetism & Electromagnetism
These poles of a magnet repel. Like poles Poles on a magnet that attract.

These poles of a magnet repel. Like poles Poles on a magnet that attract.
8/14/20151 Electricity & Magnetism Lessons 5th Grade Strand 5: Physical Science Standards Concept 3: Energy and Magnetism Presents:

8/14/20151 Electricity & Magnetism Lessons 5th Grade Strand 5: Physical Science Standards Concept 3: Energy and Magnetism Presents:
Electricity and Magnetism ISCI 2002. 1.Electricity is a Force – Vector – Electric charges (attract and repel) – Comb and Ball Example 2.Atoms – Protons.

Electricity and Magnetism ISCI Electricity is a Force – Vector – Electric charges (attract and repel) – Comb and Ball Example 2.Atoms – Protons.
Generators Mrs. Brostrom Integrated Science C. Generators II. Magnetism can create electricity – A moving conductor (wire) in a magnetic field generates.

Generators Mrs. Brostrom Integrated Science C. Generators II. Magnetism can create electricity – A moving conductor (wire) in a magnetic field generates.
Magnetism and Electromagnetism

Magnetism and Electromagnetism
Chapter 17 Preview Section 1 Electric Charge and Static Electricity

Chapter 17 Preview Section 1 Electric Charge and Static Electricity
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.

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.

Electricity and Magnetism Chapter 7 Section 1 Chapter 8 Sections 2 & 3.
1 L 24 Electricity & Magnetism [1] static electricity Why do I get a shock when I walk across the rug and touch the door knob? Why do socks stick to my.

1 L 24 Electricity & Magnetism [1] static electricity Why do I get a shock when I walk across the rug and touch the door knob? Why do socks stick to my.
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 

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 
Have you ever wondered where electricity comes from? You might be surprised to learn that it comes from magnets! In the early 1800s, Michael Faraday discovered.

Have you ever wondered where electricity comes from? You might be surprised to learn that it comes from magnets! In the early 1800s, Michael Faraday discovered.

Similar presentations

Ads by Google