A parallel plate capacitor has two very large plates of ...2520slides.pdfJames Clerk Maxwell (1831...
Transcript of A parallel plate capacitor has two very large plates of ...2520slides.pdfJames Clerk Maxwell (1831...
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A parallel plate capacitor has two very large plates of area Aseparated by a small distance d. It is charged with equal charges of opposite sign. What is the magnitude of the electric field at point P, outside the capacitor?
1)
2)
3)
4) Zero.d
Area A0
Q
02
Q
A
0
Q
AP
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Parallel-plate Capacitor
• Electric Field for “infinite” sheet of charge:
d
Area A
02E
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James Clerk Maxwell (1831 – 1879)
• Put electromagnetism on a solid theoretical footing.
• Unified electromagnetism and optics by showing that light “is an electromagnetic disturbance propagated through the field.” (1864)
• Devised a method to take the first color photographs.
Figure 31.1
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http://en.wikipedia.org/wiki/Color_photography
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Maxwell’s Equations – The Fundamental Laws of Electromagnetism
• Gauss’ Law– The total electric flux through a closed surface is
proportional to the charge enclosed:
• Gauss’ Law for Magnetism– The total magnetic flux through a closed surface is
zero.
– There are no magnetic charges.
0
ˆ enclQdA
E n
ˆ 0dA B n
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Maxwell’s Equations – The Fundamental Laws of Electromagnetism
• Faraday’s Law
– When the magnetic flux through some loop (C) changes, it induces an emf around the loop proportional to the rate of change of the magnetic flux.
ˆBd dN N dA
dt dt
B n
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Faraday’s Law
• A changing magnetic field induces a curlyelectric field – one for which you cannot define a potential V.
ˆd
dAdt
E dl B n
Figure 29.27c
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Maxwell’s Equations – The Fundamental Laws of Electromagnetism
• Ampere’s Law (valid for constant currents)
– The integral of is proportional to the current piercing a surface bounded by the curve.
– This Law needs generalization to the case of non-constant currents.
dlB
0 enclI B dl
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Figure 31.2
0 enclI B dl
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Figure 31.3
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1)
2)
3)
4) Zero.
What is the total electric flux through Surface 1?
0
Q
0 I
0
Q
A
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1)
2)
3)
4) Zero.
5) Need more information.
What is the total electric flux through Surface 2?
0
Q
0 I
0
Q
A
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• Gauss’ Law
– The total electric flux through a closed surface is proportional to the charge enclosed:
0
ˆ enclQdA
E n
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1)
2)
3) Both are zero.
4) They are not related.
5) Need more information.
How is the current through Surface 1 related to the total electric flux through Surface 2?
( 2)1 0
SEI
( 2)
1 0
SEd
Idt
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What do the two surfaces have in common?
• Surface S1:
– Electric Flux = 0 so
– Current piercing the surface is I1.
• Surface S2:
– Electric Flux is changing:
– No current pierces surface.
• For both surfaces the sum is the same.
( 1)
0 0S
Ed
dt
( 2)
0
SEd
dt
0Ed
Idt
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The Maxwell-Ampere Law
• The integral of around a closed curve is proportional to the current piercing a surface bounded by the curve plus times the time rate of change of electric flux through the surface.
dlB
0 0
0 0ˆ
Eencl
encl
dI
dt
dI dA
dt
B dl
B dl E n
0
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Faraday’s Law
• The integral of around a closed curve is proportional the time rate of change of magnetic flux through a surface that is bounded by the curve.
ˆd
dAdt
E dl B n
Figure 29.27c
dlE