Presentation is loading. Please wait.

Presentation is loading. Please wait.

Electric circuits (and making speakers)

Published byBertram Walker Modified over 6 years ago

Similar presentations

Presentation on theme: "Electric circuits (and making speakers)"— Presentation transcript:

1 Electric circuits (and making speakers)

2 Types of Fields M M1 Gravitational Field M2 Gravitational Fields
Mass ‘M’ has gravitational field ‘G’ ‘Gravitational’ means that the field is due to gravity All ‘masses’ have gravitational fields, people have gravitational fields, atoms have gravitational fields, but the ‘magnitude’ or ‘how big ‘ the gravitational field is depends on how big the mass is A good example of a large mass is the earth, it has a gravitational field that pulls the moon towards it A gravitational field is illustrated by ‘field lines’, direction of pull is denoted by arrows A gravitational field exists only because mass ‘M’ exists – this is an important point For all field lines, the closer they are together, the greater the force of the field d1 shows a smaller distance between the field lines than d2, so the force of the field is larger closer to mass ‘M’ This is shown is the second diagram, the force exists all around mass ‘M’, the darker green is a stronger force field and the lighter green is the weaker force field

3 Types of Fields + - M Gravitational Field Electric Field
Electric Fields In an atom, we have three things: protons (positively charged), neutrons (neutrally charged) and electrons (negatively charged) An electric field only exists around things that are ‘charged’ So in an atom, the things that have a ‘charge’ are protons and electrons The electric field only exists because there is a charge present (whether it’s positive or negative) Protons have a repelling electric field while electrons have an attractive electric field, just like the gravitational field Protons Repelling - Electrons Attracting

4 Types of Fields + M Gravitational Field Electric Field Magnetic Field
Magnetic Fields Here we have a diagram of a wire that is full atoms that have both positive and negative charges Like every charge has an electric field, every moving charge has a magnetic field Magnetic fields only exist because there is a moving charge, specifically, electrons moving through the wire The magnetic field produced ‘wraps’ around the wire, and we’ll learn how this happens in the next few slides Magnetic Field - - Electron Flow - - - - - - - - - Current Flow

5 N S Permanent Magnets Permanent Magnets
All permanent magnets have a north and south pole, and the magnetic fields are illustrated, one again, using field lines The magnetic field goes from the north to the south pole

6 Permanent Magnets Permanent Magnets
- We can visualize the magnetic field when we place iron filings around a magnetic, we can see the fields going from the north to the south pole

7 Magnetic Fields in an Electric Coil
Electromagnet If we create a coil out of many wire loops stacked on top of each other, and send current through the coil, you get a lot of magnetic field around the wire The magnetic field of all the loops add up together, and you get a magnetic field that looks very much like a field around a bar magnet We get a north pole and a south pole around the coil, creating an electromagnet: a magnet created using an electric current The more loops we have the stronger the magnetic field. S

8 How Speakers Work S N Permanent Magnet
The job of a speaker is to convert electrical signal from the sound source into an audible sound: we start out with a permanent magnet with a north and south pole. Permanent Magnet N

9  How Speakers Work   N - S + Diaphragm Electromagnetic Coil
We then create an electromagnetic coil around the permanent magnet, which has its own magnetic field around it with a north and south pole when current flows through the wire. The permanent magnet is fixed, but the electromagnet can move. This coil behaves like a normal permanent magnet but with one handy property: when the flow of current reverses direction, the poles on the magnet flip – where the north pole becomes south and vice versa. As pulses of electricity pass through the coil, the direction of the magnetic fields rapidly change and the poles of the electromagnet switch. This means that electromagnet is attracted and repelled from the permanent magnet and vibrates back and forth. The electromagnet is attached to a diaphragm or cone that amplifies these vibrations, pumping sound waves into the surrounding air and towards your ears. Permanent Magnet - S + Alternating Current

10  How Speakers Work   - + Diaphragm Electromagnetic Coil Permanent
Alternating Current

11 Materials Cup Phone Electrical Tape Copper Wire Magnet Audio Jack
slide to unlock Aladdin Sane David Bowie Copper Wire Provide pupils with a copy of the handout: ‘Making speakers.pdf’. Magnet Audio Jack

12 Steps to Assemble Speaker
Stick magnet to the inside-bottom of the cup Wrap copper wire coil and stick to outside-bottom of cup Join copper wire to audio jack Stick magnet to the inside-bottom of the cup. Wrap copper wire coil and stick to outside-bottom of cup. Join copper wire to audio jack.

13 Steps to Assemble Speaker
Stick magnet to the bottom of the cup Wrap copper wire coil and stick to outside-bottom of cup Join copper wire to audio jack 1. Stick magnet to the bottom of the cup. 2. Wrap copper wire coil and stick to outside-bottom of cup. 3. Join copper wire to audio jack.

14 Steps to Assemble Speaker
Stick magnet to the bottom of the cup Wrap copper wire coil around paper tube & hot glue around magnet Join copper wire to audio jack Stick magnet to the bottom of the cup. Wrap copper wire coil around paper tube & hot glue around magnet. Join copper wire to audio jack. TIP: tape in an ‘X’ over coil TIP: wrap about coils

15 Steps to Assemble Speaker
Stick magnet to the inside-bottom of the cup Wrap copper wire coil and stick to outside-bottom of cup Sand ends of copper wire & join to audio jack TIP: tape over ends Stick magnet to the inside-bottom of the cup. Wrap copper wire coil and stick to outside-bottom of cup. Sand ends of copper wire & join to audio jack.

16 RAF examples: electromagnets
Using electromagnets isn’t something new. The RAF were using them a long time ago. Look at this example of a magnet fitted to an aircraft. It was used the detect mines during the Second World War.

Download ppt "Electric circuits (and making speakers)"

Similar presentations

Magnetism Click to move on Mike Turner, Feb. 2004.

Magnetism Click to move on Mike Turner, Feb
MAGNETISM AND ITS USES CHAPTER 8.

MAGNETISM AND ITS USES CHAPTER 8.
Build a speaker. Sound wave Compressional wave Air is compressed and expanded rhythmically Created by something vibrating blog.modernmechanix.com.

Build a speaker. Sound wave Compressional wave Air is compressed and expanded rhythmically Created by something vibrating blog.modernmechanix.com.
FIK2, FIR1 & FIR2. FIK2- What is an electromagnet? Electromagnets are magnets that have their magnetic field produced by electric current. The magnetic.

FIK2, FIR1 & FIR2. FIK2- What is an electromagnet? Electromagnets are magnets that have their magnetic field produced by electric current. The magnetic.
Unit IIA Magnetism Reference: Ch 20-26 Essential Question: How is magnetism different from electricity?

Unit IIA Magnetism Reference: Ch Essential Question: How is magnetism different from electricity?
attract repel polarity strength

attract repel polarity strength
Ch 8 Magnetism.

Ch 8 Magnetism.
Gravity, Electricity, & Magnetism

Gravity, Electricity, & Magnetism
Magnets, Magnets and More Magnets. Explore Using the material given, find things around the room that stick to it.

Magnets, Magnets and More Magnets. Explore Using the material given, find things around the room that stick to it.
by Richard J. Terwilliger Click on a Created by Richard J. Terwilliger July 2001.

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

MAGNETISM.
Chapter 7 Magnetic Fields. 7.1 THE CREATION OF MAGNETIC FIELDS.

Chapter 7 Magnetic Fields. 7.1 THE CREATION OF MAGNETIC FIELDS.
Magnetism Magnets magnetism – force of attraction or repulsion not all objects are affected by the force of magnetism ex. wood, glass, paper, plastic.

Magnetism Magnets magnetism – force of attraction or repulsion not all objects are affected by the force of magnetism ex. wood, glass, paper, plastic.
Electricity and Magnetism CRCT review. just like gravity A force that depends on: Size (mass or charge of objects) Distance between the centers.

Electricity and Magnetism CRCT review. just like gravity A force that depends on: Size (mass or charge of objects) Distance between the centers.
II. Uses of Magnetic Fields (p ) Electromagnet Speaker Motor

II. Uses of Magnetic Fields (p ) Electromagnet Speaker Motor
MagnetismSection 1 © Houghton Mifflin Harcourt Publishing Company Preview Section 1 Magnets and Magnetic FieldsMagnets and Magnetic Fields Section 2 Magnetism.

MagnetismSection 1 © Houghton Mifflin Harcourt Publishing Company Preview Section 1 Magnets and Magnetic FieldsMagnets and Magnetic Fields Section 2 Magnetism.
Magnetism Chapter 24.

Magnetism Chapter 24.
Build a speaker. Sound wave Compressional wave Air is compressed and expanded rhythmically Created by something vibrating blog.modernmechanix.com.

Build a speaker. Sound wave Compressional wave Air is compressed and expanded rhythmically Created by something vibrating blog.modernmechanix.com.
 The two smaller magnets will have their own north and south poles  You get two separate magnets, NOT a north “magnet” and a south “magnet”  This is.

 The two smaller magnets will have their own north and south poles  You get two separate magnets, NOT a north “magnet” and a south “magnet”  This is.
Magnets and Magnetic Fields. Magnets Magnets can be used along with circuits to create an alarm – A magnet can pull a switch closed to complete the circuit,

Magnets and Magnetic Fields. Magnets Magnets can be used along with circuits to create an alarm – A magnet can pull a switch closed to complete the circuit,

Similar presentations

Ads by Google