Download - MULTIPOLE EXPANSION
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MULTIPOLE EXPANSION
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Class Activities: Multipole
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Dipole moment - off center
x
r1
r2
d
+q
-q
MD6.1
The dipole moment,
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Dipole moment - off center
x
y
r1
r2
d+q
-q
MD6.1
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Which of the following is correct (and "coordinate free")?
A) B)
C) D)
E) None of these
A small dipole (dipole moment p=qd) points in the z direction. We have derived
3.22a
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An ideal dipole (tiny dipole moment p=qd) points in the z direction.
We have derived
Sketch this E field...(What would change if the dipole separation d was not so tiny?)
3.22b
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Sketch this E field…
3.22b
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For a dipole at the origin pointing in the z-direction, we have derived
For the dipole p = q d shown, what does the formula predict for the direction of E(r=0)?
MD6 - 2
x
z+
-
d
A)Down B) Up C) some other direction
D) The formula doesn't apply.
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An ideal dipole (tiny dipole moment p=qd) points in the z direction.
We have derived
(What would change if the dipole separation d was not so tiny?)
3.22b
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StreamPlot[{(3*x*y)/(Sqrt[x^2 + y^2])^5, (2*y*y – x*x)/(Sqrt[x^2 + y^2])^5}, {x, -2, 2}, {y, -2, 2}]
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What is the magnitude of the dipole moment of this charge distribution?
A) qdB) 2qdC) 3qdD) 4qdE) It's not determined
(To think about: How does V(r) behave as |r| gets large?)
3.27
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Dipole moment - off center
d
+2q
-q
MD6.1
What is the dipole moment of this system? (Note: it is NOT overall neutral!)
x0
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Dipole moment - off center
d/2
d
+2q
-q
MD6.1
What is the dipole moment of this system? (Note: same as last question, just shifted in z!)
d/2
0 x
r1
r2
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You have a physical dipole, +q and -q a finite distance d apart. When can you use the expression:
A) This is an exact expression everywhere.
B) It's valid for large r
C) It's valid for small r
D) ?
3.22c
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You have a physical dipole, +q and -q, a finite distance d apart. When can you use the expression
A) This is an exact expression everywhere.
B) It's valid for large r
C) It's valid for small r
D) ?
3.22
d
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Which charge distributions below produce a potential which looks like C/r2 when you are far away?
E) None of these, or more than one of these!
(Note: for any which you did not select, how DO they behave at large r?)
3.25
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Which charge distributions below produce a potential which looks like C/r2 when you are far away?
E) None of these, or more than one of these!
(Note: for any which you did not select, how DO they behave at large r?)
3.26
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In which situation is the dipole term the leading non-zero contribution to the potential?
A) A and CB) B and DC) only ED) A and EE) Some other combo
3.28
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Electric properties of matter
No flies were harmed in the process
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Let me know how far along you are:
A) DONE with page 1B) DONE with page 2C) DONE with page 3!
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On paper (don’t forget your name!) in your own words (by yourself):
What is the idea behind the multipole expansion? What does it accomplish?In what limits/cases is it useful?