1. Magnetism Chapter 17

2. Magnets and Magnetic Fields Section 17.1

3. Introduction Magnets Magnets Lodestones- 1st naturally occurring magnetic rocks Lodestones- 1st naturally occurring magnetic rocks Contain Magnetite- an iron based material Contain Magnetite- an iron based material From Greece From Greece

4. Magnets Permanent magnets- substances that are magnetic all the time (lodestones) Permanent magnets- substances that are magnetic all the time (lodestones) Can weaken (can’t eliminate) magnetism: Can weaken (can’t eliminate) magnetism: Heat or hammer it Heat or hammer it “soft”- easy to magnetize, but lose magnetism easily or quickly “soft”- easy to magnetize, but lose magnetism easily or quickly “hard”- difficult to magnetize, but stays magnetized for awhile “hard”- difficult to magnetize, but stays magnetized for awhile

5. Magnets (LISTEN!!) Exert a magnetic force on each other Exert a magnetic force on each other EX: use a magnet to pick up a paper clip, that paper clip will pick up other paper clips EX: use a magnet to pick up a paper clip, that paper clip will pick up other paper clips Chain of paper clips has a limit, (move away from magnet weakens the force) Chain of paper clips has a limit, (move away from magnet weakens the force) Paper clip will not be permanently magnetized Paper clip will not be permanently magnetized

6. Magnets Magnetic pole- one of two points that have opposing magnetic qualities Magnetic pole- one of two points that have opposing magnetic qualities Like poles repel Like poles repel Opposite poles attract Opposite poles attract North and South poles North and South poles CAN’T isolate one pole CAN’T isolate one pole Cut a magnetic in ½ you will still have a N and S pole on each piece Cut a magnetic in ½ you will still have a N and S pole on each piece

8. Magnetic Fields Don’t write!! Listen! Don’t write!! Listen! When two North poles are facing each other the force that causes that magnet to move away, or the force you feel pushing magnets apart when you try to force them together are a result of magnetic fields When two North poles are facing each other the force that causes that magnet to move away, or the force you feel pushing magnets apart when you try to force them together are a result of magnetic fields

9. Magnetic Fields Magnetic fields- a region where a magnetic force can be detected Magnetic fields- a region where a magnetic force can be detected Produced by all magnets Produced by all magnets Depends on: Depends on: Material of magnet Material of magnet Degree of magnetism Degree of magnetism

10. Magnetic Fields Magnetic field lines Magnetic field lines Field lines form closed loops Field lines form closed loops Gets weaker with distance from magnet Gets weaker with distance from magnet Magnet’s field is strongest at poles Magnet’s field is strongest at poles

12. Magnetic Fields Compasses track magnetic fields Compasses track magnetic fields Earth’s magnetic field is like a bar magnet Earth’s magnetic field is like a bar magnet Has 2 poles Has 2 poles Background Info Background Info Earth’s core is Iron (too hot 4 magnetism) Earth’s core is Iron (too hot 4 magnetism) Believed that the liquid outer core’s electrons cause the magnetism Believed that the liquid outer core’s electrons cause the magnetism Field has reversed at least 20 times in 5 mil yr Field has reversed at least 20 times in 5 mil yr

15. Magnetic Field Earth’s magnetic poles are NOT the SAME as the geographic poles Earth’s magnetic poles are NOT the SAME as the geographic poles Field points from geographic South Pole to geographic North Pole Field points from geographic South Pole to geographic North Pole The magnetic North pole is in Antarctica The magnetic North pole is in Antarctica The magnetic South pole is in Canada The magnetic South pole is in Canada

16. Magnetic Field Magnets named for the geographic pole that they seek Magnets named for the geographic pole that they seek N end of magnet is a “north seeking” pole N end of magnet is a “north seeking” pole S end of magnet is a “south seeking” pole S end of magnet is a “south seeking” pole

17. Magnetism from Electric Currents Section 17.2

18. Magnetism from Electric Currents Hans Christian Oersted Hans Christian Oersted Discovered that moving electric charge produced magnetism Discovered that moving electric charge produced magnetism Electric currents produce magnetic fields Electric currents produce magnetic fields Free moving iron fillings will align with the magnetic field (fig 6) Free moving iron fillings will align with the magnetic field (fig 6) No current=no magnetic field No current=no magnetic field

19. Magnetism from Electric Currents Right Hand Rule (how to predict direction of a field) Right Hand Rule (how to predict direction of a field) Imagine holding the wire in your right hand w/your thumb pointing in the direction of the (+) current, the direction your fingers would curl is in the direction of the magnetic field Imagine holding the wire in your right hand w/your thumb pointing in the direction of the (+) current, the direction your fingers would curl is in the direction of the magnetic field Never touch an uninsulated wire you may be electrocuted Never touch an uninsulated wire you may be electrocuted

20. Magnetism from Electric Current Magnetic field of a coil of wire resembles that of a bar magnet Magnetic field of a coil of wire resembles that of a bar magnet Coiling a wire=stronger magnetic field Coiling a wire=stronger magnetic field Solenoid- a coil of wire with an electric current in it Solenoid- a coil of wire with an electric current in it Has a north and south pole Has a north and south pole Strength depends on # of loops in wire and amount of current in wire Strength depends on # of loops in wire and amount of current in wire

21. Solenoid Cont’d Increase solenoid strength by inserting an iron rod in the center of coils Increase solenoid strength by inserting an iron rod in the center of coils Electromagnet- a coil that has a soft iron core and that acts as a magnet when an electric current is in the coil Electromagnet- a coil that has a soft iron core and that acts as a magnet when an electric current is in the coil

22. Magnetism from Electric Currents Magnetism caused from moving charges Magnetism caused from moving charges Some atoms have own magnetic field Some atoms have own magnetic field Magnetic atoms rotate to align w/the magnetic fields of other atoms forming domains Magnetic atoms rotate to align w/the magnetic fields of other atoms forming domains Magnetic fields of atoms in a domain point in the same direction Magnetic fields of atoms in a domain point in the same direction

23. Electromagnetic Devices Galvanometers- instrument that detects, measures, and determines the direction of a small electric current Galvanometers- instrument that detects, measures, and determines the direction of a small electric current Electric motor- a device that converts electrical energy into mechanical energy Electric motor- a device that converts electrical energy into mechanical energy Stereo speakers use magnetic force to produce sound Stereo speakers use magnetic force to produce sound

24. Electric Currents from Magnetism Section 17.3

25. Introduction Electromagnetic induction- the process of creating a current in a circuit by changing a magnetic field Electromagnetic induction- the process of creating a current in a circuit by changing a magnetic field Created by: Created by: Pushing a magnet through a coil Pushing a magnet through a coil

26. Faraday’s Law An electric current can be produced in a circuit by a changing magnetic field An electric current can be produced in a circuit by a changing magnetic field Induced Current Induced Current Loop of wire passing between 2 magnet poles in a direction that is NOT parallel to the field Loop of wire passing between 2 magnet poles in a direction that is NOT parallel to the field Rotate the circuit Rotate the circuit Change the strength of the field Change the strength of the field

27. Faraday’s Law & Electromagnetic Induction Moving electric charges experience a magnetic force when in a magnetic field Moving electric charges experience a magnetic force when in a magnetic field Magnetic force is 0 when the charge moves along or opposite the direction of the magnetic field lines Magnetic force is 0 when the charge moves along or opposite the direction of the magnetic field lines Magnetic force is at max when charge moves perpendicular to field Magnetic force is at max when charge moves perpendicular to field

28. Faraday’s Law & Electromagnetic Induction Max current is produced when wire moves perpendicular to magnetic field Max current is produced when wire moves perpendicular to magnetic field Zero current (no induced current) when wire moves parallel to magnetic field Zero current (no induced current) when wire moves parallel to magnetic field

29. Faraday’s Law & Electromagnetic Induction Generators convert mechanical energy to electrical energy Generators convert mechanical energy to electrical energy Generator- a machine that converts mechanical energy into electrical energy Generator- a machine that converts mechanical energy into electrical energy Alternating current- an electric current that changes direction at regular intervals Alternating current- an electric current that changes direction at regular intervals AC generator AC generator Most outlets Most outlets

30. Generators Pg 579 Table 1 Pg 579 Table 1 When metal loop is parallel to magnetic field you have 0 current When metal loop is parallel to magnetic field you have 0 current Current increases as loop rotates Current increases as loop rotates Metal loop is perpendicular to magnetic field you have max current Metal loop is perpendicular to magnetic field you have max current Current decreases as loop rotates Current decreases as loop rotates

31. Generators Produce electricity used in homes Produce electricity used in homes Mechanical energy comes from several sources Mechanical energy comes from several sources Dams (water on turbines) Dams (water on turbines) Coal Power Plants (heat from burning coal makes steam) Coal Power Plants (heat from burning coal makes steam) Wind Wind Geysers (geothermal) Geysers (geothermal) Solar power Solar power Nuclear fission Nuclear fission

32. Generators Electricity and magnetism are 2 parts of a single electromagnetic force Electricity and magnetism are 2 parts of a single electromagnetic force Resulting energy formed is called electromagnetic energy Resulting energy formed is called electromagnetic energy Light is an example (EM waves) Light is an example (EM waves) Made of oscillating electric and magnetic fields that are perpendicular to each other Made of oscillating electric and magnetic fields that are perpendicular to each other Both fields are perpendicular to direction the wave travels Both fields are perpendicular to direction the wave travels

33. Transformers Transformer- a device that increases or decreases the voltage of alternating current Transformer- a device that increases or decreases the voltage of alternating current 2 wires on opposite sides of iron loop 2 wires on opposite sides of iron loop Secondary current (an appliance) Secondary current (an appliance) Primary current (electric socket) Primary current (electric socket) Direction of the current in secondary coil changes when the direction of the primary coil changes Direction of the current in secondary coil changes when the direction of the primary coil changes

34. Transformers Increase of decrease voltage Increase of decrease voltage More coils = more voltage More coils = more voltage Equal # of coils = voltage is the same on both sides Equal # of coils = voltage is the same on both sides Adding more secondary devices as long as coil #’s match then each device will have same amount of voltage Adding more secondary devices as long as coil #’s match then each device will have same amount of voltage

35. Transformers Step-up transformer- voltage across the secondary coil is greater than the voltage on primary coil Step-up transformer- voltage across the secondary coil is greater than the voltage on primary coil Used near power plants Used near power plants Step-down transformer- secondary coil has fewer loops than primary coil Step-down transformer- secondary coil has fewer loops than primary coil Used in your home Used in your home