electromagnetism...10 phys20141 electromagnetism 3. em in simple materials 3.1 conductors 3.2 method...
TRANSCRIPT
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PHYS20141 Electromagnetism2
Week 5 Part i)
- Potential formulation
- Lorentz invariance & Lorentz transformations for E & B
- Static fields & special relativity
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Important identities:
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Lorenz gauge
As in the static case the choice is not unique
This is called gauge freedom. It is described in the printed
notes that one can always make the choice
which is known as the Lorenz gauge conditionPHYS20141 Electromagnetism4
Not a spelling mistake !
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Lorentz transformations (along z)
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Lorentz invariance
On the printed notes it is shown that Maxwell’s
equations are invariant under LT
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Reminder:
Wire in z-direction with static line charge l
Wire in z-direction with current I
In cylindrical polar coordinates
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Consider the x-y plane:
S
No B-field
E-field Const |E|
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Consider the x-y plane:
S S’
No B-field
E-field Const |E| Const |E’|E’-field
B’-field
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PHYS20141 Electromagnetism10
3. EM in simple materials
3.1 Conductors
3.2 Method of images
3.3 Capacitance, relative permittivity & dielectrics
3.4 Polarization & electric susceptibility
3.5 Mechanisms for polarization
3.6 Electrostatics in a dielectric
3.7 Interfaces between dielectrics
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3.8 Inductance & relative permeability
3.9 Magnetization & magnetic susceptibility
3.10 Diamagnetism and paramagnetism
3.11 Magnetostatics in a magnet
3.12 Interfaces between magnets
3.13 Ferromagnetism
3.14 Ideal ferromagnetism
3.15 Electromagnets and hysteresis
3. EM in simple materials
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PHYS20141 Electromagnetism12
Week 5 Part ii)
- Ohm’s law
- Relaxation time
- Method of images
- Force on a particle near a conductor
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Conductivity
σ = conductivity [Ω−1m-1]
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dl
dS
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Example : a metal
Metal with one free electron per atom
- RMS velocity : <v2>1/2
- Mean free path : L
- Time between collisions : τ- Drift velocity : vdrift
NB insulators have σ ∼ 10-15 Ω−1m-1
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Relaxation time
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8 x 10-19 s metal
8 x 103 s insulator
“Characteristic time for electrons to rearrange themselves”
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Point charge near conductor
Physical picture :
Conduction electrons are attracted to the surface of the
conductor creating a surface charge density, σs.(NB tR = 0!)
Mathematical picture :
Solve Poisson’s equation for Φ subject to the boundary
condition that Φ(x,y,0)=0. NB this will be unique as
shown in Week 1
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Physical picture
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Mathematical problem
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Comparison of field lines
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Methods of images
Image charge