gauss law applied - university of...
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Gauss Law applied
Lecture 6.
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(1) Infinite plane/plate
1. Identify symmetry
2. Draw E field/field lines
3. Choose a gaussian surface
4. Compute E
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(2) Infinite line
1. Identify symmetry
2. Draw E field/field lines
3. Choose a gaussian surface
4. Compute E
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(3) Point (or sphere)
1. Identify symmetry
2. Draw E field/field lines
3. Choose a gaussian surface
4. Compute E
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(3B) Charged sphere
1. Identify symmetry
2. Draw E field/field lines
3. Choose a gaussian surface
4. Compute E
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FlipIt Physics: Where do I draw the surface?
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Conductor: Where do charges want to go?
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Conductors vs insulators• Conductor (Insulator): Charge is free (not free) to
move to establish electrostatic equilibrium
• Conductor have free charge: A sufficient and equal number of + and - charges can be “created” to cancel any E field in the conductor
++++
––––
+–+–+–+–
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All free charge is at the surface of conductors
• Use Gauss Law…
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Demo…
• Trash can of science (a.k.a. Faraday Pail)
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E field from a multi-layer Sphere/Coax cable
…approximations…
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Clicker questions
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All free charge is at the surface of conductors
• Use Gauss Law…
• Charge at the surface:
E? =�
✏0
~Ek = 0 (Prove this soon!)
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Induced surface charge density is typically non-uniform in conductors.
+
Draw field lines…
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Clicker questions
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Electric Potential Energy• Electric forces is conservative:
• The work performed by the electric field on a charge is path independent.
• Proof:
• Show for a point charge.
• Use superposition of point charges to represent arbitrary charge distribution.
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Electric Potential Energy• Show for a point charge…
• Work done by field on charge:
• (… on board …)
• Result:
1
2
dW = ~F · d~̀
�W = W1!2 ⌘ W2 �W1 = � q1q24⇡✏0
1
r2� 1
r1
�
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Electric Potential Energy• Define the change is Electric Potential Energy as
• Electric Potential Energy difference:
�U = U1!2 ⌘ U2 � U1 = �W1!2
U1!2 ⌘ U2 � U1 =q1q24⇡✏0
1
r2� 1
r1
�
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Electric Potential Energy• Define Electric Potential as follows: relative to a point at ∞.
• Superposition applies
• Potential energy of a charge distribution = energy required to assemble from ∞.
U1 ⌘ U1 � U1 =q1q24⇡✏0
1
r1� 1
1
�=
q1q24⇡✏0r1
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Electric Potential Energy• Plot potential
• (… on board …)
• Heuristic for remembering signs: “Physics is always going down hill.”
U(~r ) =q1q24⇡✏0r
Pote
ntia
l Ene
rgy
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Question from smartPhysics:Is there a connection between
field lines and electric potential?
(Soon!)
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Electric Potential Energy of a charge distribution
+q
+q
−q
R R
R
UTot
=X
pairs
qiqj4⇡✏
0
rij=
1
2
X
i 6=j
qiqj4⇡✏
0
rij
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From the checkpoint…Two point charges are separated by some distance as shown. The charge of the first is positive. The charge of the second is negative and its magnitude is twice as large as the first.
Is it possible find a place to bring a third charge in from infinity without changing the total potential energy of the system?
(A) YES, as long as the third charge is positive (B) YES, as long as the third charge is negative (C) YES, no matter what the sign of the third charge (D) NO