(Last updated Dec 7th, 2000)
We learn about magnetic fields in materials and cover Chapter 5 in book:
"Magnetic Materials"
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Try to read chapter 5 before we have lectures.
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Also, in spirint, it will be very simillar to Dielectricts. Try to refresh
yoursefl on those topics as well.
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Please note change in the shedule as we have agreed (exra lecture on Monday
from 8:00-10:00 and extra problem solving class at Wednesday 8:00-10:00,
since lecture and problem solving class CANCELLED on Thursday. THANKS
FOR HELPING ME WITH THE CHANGE, REALLY APPRECIATE IT!)
11/12 (Mon) 8.00-8.45 , 9.00-9.45 (Fasrumet, A802, Mc2 building) Discussing
`Extra points exam' from last week
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As usual, we begin with "Do you have any questions about previous material,
comments, etc.?"
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We talk about last week's test and discuss solutions (hardest problems)
11/12 (Mon) 8.00-8.45 , 9.00-9.45 (Fasrumet, A802, Mc2 building) Diamagnetism,
Paramagnetism and Ferromagnetism
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We start with Diamagnetism, Paramagnetism and Ferromagnetism ...
11/12 (Mon) 10.00-10.45 (Mikro) Macroscopic Magnetic Field
Inside Media
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Peter is going to discuss projects with you
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If there is time left we continue on Diamagnetism etc ...
11/12 (Mon) 11.00-11.14 (Mikro) Macroscopic Magnetic Field Inside Media
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We will see how to relate magnetization vector M with surface currents
(in electrostatics we realated induced surface charge to polarization vector
P) and get is = curl M.
13/12 (Wed) 8.00-8.45 (still trying to book the room) Problem
solving class (still thinking about problems)
13/12 (Wed) 9.00-9.45 (still trying to book the room) Problem solving
class (still thinking about problems)
13/12 (Wed) 10.00-10.45, 11.00-11.45 (FL11) Vector H
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We learn how to describe materials in terms of Magnetic susceptibility
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We defined electrostatic equivalent of D, and call it H and
derive Ampere's law for H
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We introduce relative Permeability \mu (equivalent of \epsilon in electrostatics)
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Summary of Magnetostatics