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Magnetism Physics 114 9/19/2018 Lecture VII.

Published byVerawati Farida Indradjaja Modified over 6 years ago

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Presentation on theme: "Magnetism Physics 114 9/19/2018 Lecture VII."— Presentation transcript:

1 Magnetism Physics 114 9/19/2018 Lecture VII

2 Concepts Magnetic field Magnetic force 9/19/2018 Lecture VII

3 Skills Determine the direction of magnetic field created by electric current Determine the direction of magnetic force on electric current Two right hand rules 9/19/2018 Lecture VII

4 Magnets Magnets have magnetic poles – north and south
Like poles repel Unlike poles attract Similarity to electric interaction 9/19/2018 Lecture VII

5 Magnetic field Introduce magnetic field:
Field lines go from north pole to south Mnemonic rule – birds fly from north to south 9/19/2018 Lecture VII

6 Magnetic field of the Earth
Earth has a magnetic field B~5x10-5 T Compass - a small magnet in a form of an arrow - is used to determine the direction of the magnetic field South magnetic pole is located close to the north geographic pole, that is why north end of the compass is pole is pointing there (unlike poles attract) 9/19/2018 Lecture VII

7 Magnetic field Magnetic field is labeled by B
It is measured in Tesla and Gauss 1T=10 kG 1T=1N/A m 9/19/2018 Lecture VII

8 Magnets North and south poles do not exist separately!!!
two halves of a broken magnet still have south and north pole each Different from electric charges – positive and negative charges can exist separately 9/19/2018 Lecture VII

9 Magnetic field created by currents
Electric currents – moving electric charges - create magnetic field Stationary electric charges do not create magnetic field First right hand rule Thumb along the current Wrap your fingers around the wire fingers show the direction of the magnetic field 9/19/2018 Lecture VII

10 Magnetic field created by current
Magnetic field B created by current I at a distance r from the conductor is m0 = 4p 10-7 Tm/A- magnetic permeability of free space 9/19/2018 Lecture VII

11 Magnetic field of loop current
Magnetic field is in ~ same direction inside a current loop Several loops create stronger magnetic field - solenoid 9/19/2018 Lecture VII

12 Magnetic field of a solenoid
Magnetic field inside solenoid Is parallel to its axis Depends on the current I Depends on the number of loops per unit length n=N/l: B=m0nI Does not depend on diameter Does not depend on the total length 9/19/2018 Lecture VII

13 Magnetic force on electric currents
Magnetic field exert a magnetic force on electric currents – moving electric charges F=IlBsinq q- angle between B and I F is max when B is perpendicular I and zero when B is parallel to I 9/19/2018 Lecture VII

14 Direction of the magnetic force
Second right hand rule: Fingers along the current Bend to show the direction of the magnetic field Thumb shows the direction of the force 9/19/2018 Lecture VII

15 Magnetic force on moving charge
Magnetic force F is perpendicular to the velocity v of a particle with charge q F=qvB sin q Charged particles move in circles in magnetic fields 9/19/2018 Lecture VII

16 Magnetic fields are used to separate matter from antimatter
And measure particle velocity Bubble chamber picture 9/19/2018 Lecture VII

17 Torque 9/19/2018 Lecture VII

18 Current loop in magnetic field
A=ab – area of the loop Magnetic field exerts a torque on a loop parallel to the magnetic field: 9/19/2018 Lecture VII

19 Current loop in magnetic field
q – angle between magnetic field and a perpendicular to the loop !!! Magnetic field orients a loop current perpendicular to B. N loops: 9/19/2018 Lecture VII

20 Force between two currents
Parallel currents attract Anti-parallel repel l 9/19/2018 Lecture VII

21 Ferromagnetism Electrons inside atoms – little loop currents
When placed inside magnetic field microscopic currents orient to enhance the external field This effect happens only in some materials – ferromagnetic, e.g. iron. domains 9/19/2018 Lecture VII

22 Magnetic materials Ferromagnetic Km>>1 (~1000)
Iron, cobalt, nickel, some aloys residual magnetism can be destroyed (orientation of the domains randomized) by mechanical shock or high T Paramagnetic Km>1 just a bit (1+10-4,-5) No domains, but molecules have magnetic moment Aluminum, magnesium, oxygen, platinum Diamagnetic Km<1 a really tiny bit (1-10-5,-6) Molecules do not have a magnetic moment Copper, diamond, gold, silicon, nitrogen 9/19/2018 Lecture VII

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