Presentation is loading. Please wait.

Presentation is loading. Please wait.

Combined Science (1-9): Electromagnetism Electromagnetism

Published byAbel Summers Modified over 5 years ago

Similar presentations

Presentation on theme: "Combined Science (1-9): Electromagnetism Electromagnetism"— Presentation transcript:

1 Combined Science (1-9): Electromagnetism Electromagnetism

2 Objectives:

3 Draw a line under last lesson’s work and write today’s title in your book...
Electromagnetism 14/11/2018 c/w

4 FLASHBACK FLASHBACK: Explain what is meant by acceleration and how it can be determined experimentally for someone running a race

5 FLASHBACK- AFL FLASHBACK: Explain what is meant by acceleration and how it can be determined experimentally Acceleration is the rate of change of speed (change in speed over time) You could have the runner run around the track taking their speed at two different points This could be taken by using speed=distance / time Distance determined by using a tape measure Time recorded with a stopwatch/clock Acceleration= v-u/t

6 Draw a radial electric field and a uniform magnetic field
Starter Activity Draw a radial electric field and a uniform magnetic field

7 Describe what you observe and suggest an explanation
Explore: Electromagnetism Task: This diagram shows a wire passing through a piece of paper carrying a current. On the paper are iron filings. Describe what you observe and suggest an explanation A current flowing through a wire produces a magnetic field around the wire. Iron filings can be used to visualise this field as they line up along the field lines.

8 The pattern of field lines (flux) around this wire is circular
Explore: Electromagnetism The pattern of field lines (flux) around this wire is circular You can determine the direction of the field (clockwise/anticlockwise) by making a ‘thumbs up’ with your right hand When your thumb follows the direction of current, your other fingers show the direction of the field. This is Fleming’s RIGHT hand rule

9 Explore: Solenoids (coils)
If a wire that carries a current is coiled (solenoid) into a spring-shape, the field around the coil ends up looking a little different Task: Suggest by sketching, what the field will look like around/within a solenoid Due to the current travelling in different directions on each side of a coil, the two fields partly oppose resulting in a constant field in the centre

10 Explore: Electromagnets
Due this constant field inside the solenoid, you can induce magnetism upon iron by placing some iron in the coil (temporary magnet) Task: Suggest what could be changed in the set-up shown to make the induced magnet stronger Task: How could we determine the strength of the magnet experimentally?

11 Explore: Testing Electromagnets
Use the equipment provided to answer the following experimental question: Q: How does changing the number of coils around the iron affect its strength?

12 6 mark question! Explain what a solenoid is and define the difference between a permanent magnet and a temporary magnet

13 6 mark question! A solenoid is a coil of wire
Explain what a solenoid is and define the difference between a permanent magnet and a temporary magnet A solenoid is a coil of wire It generates a magnetic field when current flows through it The direction of this field can be determined by Fleming’s Right Hand rule A permanent magnet always produces a magnetic field This field will attract magnetic materials (poles) When attached, the field induces a magnetic field in magnetic materials This turns them into temporary magnets

14 Objectives:

Download ppt "Combined Science (1-9): Electromagnetism Electromagnetism"

Similar presentations

24-1 Magnets: permanent & temporary

24-1 Magnets: permanent & temporary
Lesson 5: What Makes an Electromagnet?

Lesson 5: What Makes an Electromagnet?
Do now! Can you stick the sheet in your book please?

Do now! Can you stick the sheet in your book please?
Aim: How can we explain the 1 st two left hand rules of magnetism? Do Now: Draw the magnetic field lines around two bar magnets with the north poles facing.

Aim: How can we explain the 1 st two left hand rules of magnetism? Do Now: Draw the magnetic field lines around two bar magnets with the north poles facing.
8B1 Electromagnets Application. TITLE: Electromagnets Objectives: To be able to label (level 4) and describe how an electromagnet works including its.

8B1 Electromagnets Application. TITLE: Electromagnets Objectives: To be able to label (level 4) and describe how an electromagnet works including its.
Magnetism July 2, 2015. Magnets and Magnetic Fields  Magnets cause space to be modified in their vicinity, forming a “ magnetic field ”.  The magnetic.

Magnetism July 2, Magnets and Magnetic Fields  Magnets cause space to be modified in their vicinity, forming a “ magnetic field ”.  The magnetic.
Electromagnetism, etc. Q & A. Q#1 Q#2 Q#3 Q#4.

Electromagnetism, etc. Q & A. Q#1 Q#2 Q#3 Q#4.
MAGNETIC EFFECT OF ELECTRIC CURRENT

MAGNETIC EFFECT OF ELECTRIC CURRENT
MAGNETISM AND ELECTROMAGNETISM

MAGNETISM AND ELECTROMAGNETISM
Field Lines.

Field Lines.
Motors Noadswood Science, 2013. Motors To know how motors function and Fleming’s left hand rule Wednesday, October 21, 2015.

Motors Noadswood Science, Motors To know how motors function and Fleming’s left hand rule Wednesday, October 21, 2015.
Section 2 notes-- Electromagnetism Electricity and Magnetism:

Section 2 notes-- Electromagnetism Electricity and Magnetism:
The wires are separated by distance a and carry currents I 1 and I 2 in the same direction. Wire 2, carrying current I 2, sets up a magnetic field B 2.

The wires are separated by distance a and carry currents I 1 and I 2 in the same direction. Wire 2, carrying current I 2, sets up a magnetic field B 2.
Starter - A.C and D.C electricity 1.Draw diagrams to help you explain the difference between A.C and D.C electricity. 2.A.C or D.C. providers? Battery.

Starter - A.C and D.C electricity 1.Draw diagrams to help you explain the difference between A.C and D.C electricity. 2.A.C or D.C. providers? Battery.
The earth is a giant magnet Magnetic field lines of force leave the north pole and enter the south pole. What is a magnetic field?

The earth is a giant magnet Magnetic field lines of force leave the north pole and enter the south pole. What is a magnetic field?
What is magnetism Magnetism is a force which cannot be seen and does not require contact to be felt. It exists between two pieces of magnetic material,

What is magnetism Magnetism is a force which cannot be seen and does not require contact to be felt. It exists between two pieces of magnetic material,
Magnets and Magnetic Fields

Magnets and Magnetic Fields
7.1 Basic Ideas of Magnets p. 262 Permanent Magnets A magnet has two poles: North-seeking pole points North South-seeking pole points South Two poles interact.

7.1 Basic Ideas of Magnets p. 262 Permanent Magnets A magnet has two poles: North-seeking pole points North South-seeking pole points South Two poles interact.
Electric Fields Unit 5: Module 1: Electric and Magnetic Fields

Electric Fields Unit 5: Module 1: Electric and Magnetic Fields
PHYSICS – Electromagnetic effects (2). LEARNING OBJECTIVES Core Describe the pattern of the magnetic field (including direction) due to currents in straight.

PHYSICS – Electromagnetic effects (2). LEARNING OBJECTIVES Core Describe the pattern of the magnetic field (including direction) due to currents in straight.

Similar presentations

Ads by Google