Course Updates - phys.hawaii.eduvarner/PHYS272_Spr10/Lectures/PDF... · This is proved in Vector...
Transcript of Course Updates - phys.hawaii.eduvarner/PHYS272_Spr10/Lectures/PDF... · This is proved in Vector...
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Course Updateshttp://www.phys.hawaii.edu/~varner/PHYS272-Spr10/physics272.html
Reminders:
1) Assignment #11 due today
2)Complete Electromagnetic Waves
3)First – updates …
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Midterm 2 summary
Roughly:A: 90-100B: 80-90C: 70-80D: 60-70F: <60
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Problem problems
stationarymagnet
ConstCurrent I
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Magnetic Field of a wire loop
322
20
30
30
20
22
4
4))(1(
4
ax
IaaraI
dlraIdl
ra
rIBx
+==
== ∫∫μπ
πμ
πμ
πμ
20 ˆ
4 rrlIdBd ×
=r
r
πμ
Suppose a wire loop is centered at the origin in the y-z plane. What isthe B field along the center line axis (x-axis)? By symmetry, the net B field must be only along the x-axis as the y and z components will cancel.
RadBdBdBx == θcos
20
4 rIdldB
πμ
=B
μ02
3Problem 4 c: a=1200km, x=6360km,B = 0.5x10-4 T, solve for I
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Fish bowl
dtAdBdldE ∫ ⋅
−=∫ ⋅rr
rr Faraday’s Law works for any closed Loop and ANYattached surface area
disk
Line integraldefines the Closed loop
This is proved in Vector Calculus with Stoke’s Theorem
cylinder
Remarks on Faraday’s Law with different attached surfaces
Surface areaintegration for B flux
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Summary of Faraday’s Law
dtdldE BΦ
−=∫ ⋅rr
If we form any closed loop, theline integral of the electric field equals the time rate change of magnetic flux through the surfaceenclosed by the loop.
If there is a changing magnetic field, then there will beelectric fields induced in closed paths. The electric fieldsdirection will tend to reduce the changing B field.
E
B
dt = 1sE(2πr) = -BxAA = πr2
Problem 4 d: R=6360km,B = 0.5x10-4 T, solve for dΦB/dt
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Course summary
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sinusoidal EM wave solutions; moving in +x
( )tkxEEy ω−= cosmax
( )tkxBBz ω−= cosmax
f
k
πωλπ
2
2
=
=
kcf ωλ ==
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EM wave; energy momentum, angular momentumPreviously, we demonstrated the energy density existed in E fields inCapacitor and in B fields in inductors. We can sum these energies,
Since, E=cB and then u in terms of E,
=> EM wave has energy and can transport energy at speed c
20
20 2
121 BEu με +=
00/1 εμ=c
20
20
20
20
20 2
121
21
21 EEE
cEEu εεεμε =+=⎟
⎠⎞
⎜⎝⎛+=
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EM wave; energy flow & Poynting VectorSuppose we have transverse E and B fields moving, at velocity c, to the right. If the energy density is
and the field is moving through area A at velocity c covers volume Act,
that has energy, uAct. Hence the amount of energy
20Eu ε=
A
ct
flow per unit time per unit surface area is,
This quantity is called, S. We can write this in terms of E&B fields,
We can also define the energy flow with direction, called Poyntingvector, , which provides direction of propagation
( ) 20
11 cEucuActAtdt
dUA
ε===
0002
0 // μεεε EBcEcBccEcEcES ====
BESrrr
×=0
1μ
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Comment on Comment on PoyntingPoynting VectorVectorJust another way to keep track of all thisJust another way to keep track of all this-- Its magnitude is equal to Its magnitude is equal to II–– Its direction is the direction of propagation of the waveIts direction is the direction of propagation of the wave
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Waves Carry Energy
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EM wave; IntensityThe intensity, I, is the time average of the magnitude of the Poynting vector and represents the energy flow per unit area.
In Y&F, section 32.4, the average for a sinusoidal plane wave\(squared) is worked out,
The can be rewritten as,
( ) ( ) ( )tzyxBtzyxEtzyxSI ,,,,,,1,,,0
rrr×==
μ
( ) ( )0maxmax
0maxmax
222cos1
2,,,
μω
μBEtkxBEtzyxSI =−+==
r
( ) 2max
02max
00maxmax
222,,, B
cEcBEtzyxSI εε
μ====
r
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Waves Carry Energy
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Cell Phone ExampleA sinusoidal electromagnetic wave emitted by a cell phone has
a wavelength of 35.4 cm and an electric field amplitude of 5.4 x 10-2 V/m at a distance of 250 m from the antenna.
(a) What is the magnetic field amplitude?
a.) E = c B; B= E/c = 5.4 x 10-2 (V/m)/3 x 108 m/s
B = 1.8 x 10-10 T
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Cell Phone ExampleA sinusoidal electromagnetic wave emitted by a cell phone has
a wavelength of 35.4 cm and an electric field amplitude of 5.4 x 10-2 V/m at a distance of 250 m from the antenna.
(a) What is the magnetic field amplitude?
(b) The intensity?
(C) The total average power?
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Cell Phone ExampleA sinusoidal electromagnetic wave emitted by a cell phone has
a wavelength of 35.4 cm and an electric field amplitude of 5.4 x 10-2 V/m at a distance of 250 m from the antenna. (a) What is the magnetic field amplitude? (b) The intensity? (C) The total average power?
b.)
26
282212
20
/1087.3
)/104.5)(/103)(/1085.8(21
;21
mWI
mVsmNmCI
cEI
−
−−
×=
×××=
= ε
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Cell Phone ExampleA sinusoidal electromagnetic wave emitted by a cell phone has
a wavelength of 35.4 cm and an electric field amplitude of 5.4 x 10-2 V/m at a distance of 250 m from the antenna.
(C) The total average power?
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Cell Phone ExampleA sinusoidal electromagnetic wave emitted by a cell phone has
a wavelength of 35.4 cm and an electric field amplitude of 5.4 x 10-2 V/m at a distance of 250 m from the antenna. (a) What is the magnetic field amplitude? (b) The intensity? (C) The total average power?
c.) Assume isotropic: I=P/A;
P=4πr2 I = 4 π (250m)2 I
P = 3 W
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From last time… EM waves carry energy…
Lasers = Coherence!
Even reducing divergence: sun through magnifying glass
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2
2=
pEm
If it has energy and its moving, then it also has momentum:If it has energy and its moving, then it also has momentum:
Analogy from mechanics:Analogy from mechanics:
22
=dE p dpdt m dt
→ =dE dU IAdt dt
=mv dpm dt
= vF
→v cFor EFor E--M waves:M waves:
=IA cF
pressurepressure=I Fc A
=IPc
Radiation pressureRadiation pressure
Light has Momentum!
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Light PressureEnergy transport → momentum
Momentum = energy carried by wavespeed
total Uc
=
Intensity = →energy
time-areaenergy/ momentumtime-area time-area
I cc
= =
momentumForce = time
Forcearea
Ic
= ≡ Radiation Pressure
Light pressure, though “light”, has noticeable effects → comet’s tail pushed away from the sun*.
*Note: The dust tail is pushed away by radiation; the ion tail is pushed away by the solar wind!
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An absorbing black disk of radius r, mass m, is hanging by a thread. A laser beam with radius a, intensity I, and frequency ω, is incident on the disk (centered on it) from the left. If we increase ____ (keeping all other parameters the same), the light force on the disk will increase.
a. disk radius r
b. disk mass m
c. laser beam radius a
d. laser beam intensity I
e. laser frequency ω
force = pressure x areapressure = I/c
r < a: increasing r more of the beam is intercepted more force.
increasing a does nothing (if I is kept constant)
r > a: increasing a more of disk is hit by the beam more force.
increasing r does nothing
Increasing I definitely increases force.Intensity is independent of frequency.
Question 1:
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Question 2• Two identical spaceships are
sitting at equal distances from the sun. One ship is colored black, the other is silver. –Which ship will experience
the greater force from the light pressure?(a) black ship (b) silver ship (c) same
Sun, faraway
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Question 2• Two identical spaceships are
sitting at equal distances from the sun. One ship is colored black, the other is silver. –Which ship will experience
the greater force from the light pressure?
(a) black ship (b) silver ship (c) same
Sun, faraway
• The ships are the same distance from the source, so the intensity of light hitting each is the same.
• They are the same size and shape and (as drawn) have the same orientation. Therefore, they present the same cross-sectional area and experience the same total incident flux of light.
• BUT…the black ship absorbs all the momentum from the light, while the silver ship reflects it. Therefore, the silver ship will experience twice the change in momentum, or twice the force.
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Question 3• Two identical spaceships are
sitting at equal distances from the sun. One ship is colored black, the other is silver.
• If the distance from the silver ship to the sun is doubled, the pressure will be reduced by a factor of
(a) 1 (b) 2 (c) 4
Sun, faraway
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Question 3• Two identical spaceships are
sitting at equal distances from the sun. One ship is colored black, the other is silver.
• If the distance from the silver ship to the sun is doubled, the pressure will be reduced by a factor of
(a) 1 (b) 2 (c) 4
Sun, faraway
• Because the sun is assumed to be far away, the intensity at a distance r is simply the total power divided by the surface area of the sphere: 4π r2.
• Therefore, doubling r increases the surface area by 4, and reduces the intensity by 4. Thus the pressure on the ship is similarly reduced by 4.
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Solar sail
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Standing Waves or EM waves in a metal box
-1
-0.5
0
0.5
1
1 2 3 4 5 6x
A sinusoidal E&B wave canexist in a metal box if the Efield is ZERO on the boundaryof the box. This requires thewave to be zero at x=0,L.This is possible if,
E = Emax sin( nπx / L )
Where n = 1,2,3… Since
E = Emax sin(2πx/ λ )X=0 X=L
We have for standing waves, fixed wavelengths of,nL
n2
=λ
Examples; Klystron in microwave oven, waveguides
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For next time
• Homework #11 due.• Homework #12 posted due Monday
• Start optics/optical phenomenon