phys 270 – suppl. #9spp.astro.umd.edu/spacewebproj/classes pages...a. 4.0 µv/m b. 2.0 µv/m c....
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PHYS270–SUPPL.#9
DENNISPAPADOPOULOSFEBRUARY24,2011
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IfitiscompletelyabsorbedPR=I/c
1‐5solve5.1
R
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F = maPR = I /cFR = PRA = IA /c = ma(I /c)A = ma
A = mac /I =(3x108m /s)x(108kg)x.01m /s2
1300W /m2 = 2.3x107m2
35.51similar–needareaofearthasviewedfromSun RE=6.4Mm
35.53similarbalancegravityforceagainstFR=(IA/c)Nt
35.55MomentumbalanceFR=IA/c=P/cPispower.Findaccelerationetc
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E = ez(V / l) = ez (IR / l) B = eθ (µI /2πr) S = (I2R /2πrl)(ez × eθ ) = −(I2R /2πrl)er
cylindrical geometryer × eθ = ez
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FIELDOFMYPOINTER
HE‐NEONPOWER1mWatt,diameter1mm2.Howbigistheelectricfieldneartheaperture?
A=πr2=π(5x10‐4)2m2
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POLARIZATION
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E inc = Ex
ˆ i + Eyˆ j = ˆ i Eo sinθ + ˆ j Eo cosθ
Transmitted E transm = Ey
ˆ j = Eo cosθˆ j
Itransm = Io cos2θ
ReflectionhashorizontalpolarizationAverageofrandomtheta1/2
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Malus’sLawSuppose a polarized light wave of intensity I0 approaches a polarizing filter. θ is the angle between the incident plane of polarization and the polarizer axis. The transmitted intensity is given by Malus’s Law:
If the light incident on a polarizing filter is unpolarized, the transmitted intensity is
In other words, a polarizing filter passes 50% of unpolarized light and blocks 50%.
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A. Ia = Id > Ib = Ic B. Ib = Ic > Ia = Id C. Id > Ia > Ib = Ic D. Ib = Ic > Ia > Id E. Id > Ia > Ib > Ic
Unpolarized light of equal intensity is incident on four pairs of polarizing filters. Rank in order, from largest to smallest, the intensities Ia to Id transmitted through the second polarizer of each pair.
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A. Ia = Id > Ib = Ic B. Ib = Ic > Ia = Id C. Id > Ia > Ib = Ic D. Ib = Ic > Ia > Id E. Id > Ia > Ib > Ic
Unpolarized light of equal intensity is incident on four pairs of polarizing filters. Rank in order, from largest to smallest, the intensities Ia to Id transmitted through the second polarizer of each pair.
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Experimenter A creates a magnetic field in the laboratory. Experimenter B moves relative to A. Experimenter B sees
A. just the same magnetic field. B. a magnetic field of different strength. C. a magnetic field pointing the opposite direction. D. just an electric field. E. both a magnetic and an electric field.
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Experimenter A creates a magnetic field in the laboratory. Experimenter B moves relative to A. Experimenter B sees
A. just the same magnetic field. B. a magnetic field of different strength. C. a magnetic field pointing the opposite direction. D. just an electric field. E. both a magnetic and an electric field.
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Bfieldsinsideachargingcapacitor
FindBatpositionr<RifthecapacitorischargingwithacurrentI.
ApplyAmpere’slaw.Insidethecapacitortheonlycurrentisthedisplacementcurrent
DISPLACEMENTCURRENT
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Which diagram shows the fields in frame S´?
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Which diagram shows the fields in frame S´?
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The electric field in four identical capacitors is shown as a function of time. Rank in order, from largest to smallest, the magnetic field strength at the outer edge of the capacitor at time T.
A. Ba = Bb > Bc = Bd B. Bd > Bc > Ba = Bb C. Ba > Bb > Bc > Bd D. Ba = Ba > Bc > Bd E. Bc > Ba > Bd > Bb
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A. Ba = Bb > Bc = Bd B. Bd > Bc > Ba = Bb C. Ba > Bb > Bc > Bd D. Ba = Ba > Bc > Bd E. Bc > Ba > Bd > Bb
The electric field in four identical capacitors is shown as a function of time. Rank in order, from largest to smallest, the magnetic field strength at the outer edge of the capacitor at time T.
FastestchangeofEwithtimecorrespondstobiggestslope
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An electromagnetic wave is propagating in the positive x-direction. At this instant of time, what is the direction of at the center of the rectangle?
A. In the positive x-direction B. In the negative x-direction C. In the positive z-direction D. In the negative z-direction E. In the positive y-direction
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A. In the positive x-direction B. In the negative x-direction C. In the positive z-direction D. In the negative z-direction E. In the positive y-direction
An electromagnetic wave is propagating in the positive x-direction. At this instant of time, what is the direction of at the center of the rectangle?
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v = E × B
v = (v,0,0) B = (0,−B,0)
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An electromagnetic wave is traveling in the positive y-direction. The electric field at one instant of time is shown at one position. The magnetic field at this position points
A. In the positive y-direction. B. In the negative y-direction. C. In the positive x-direction. D. In the negative x-direction. E. Away from the origin.
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A. In the positive y-direction. B. In the negative y-direction. C. In the positive x-direction. D. In the negative x-direction. E. Away from the origin.
An electromagnetic wave is traveling in the positive y-direction. The electric field at one instant of time is shown at one position. The magnetic field at this position points
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v = E × B
B = v ×
E
v = (0,v,0) E = (0,0,E)
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The amplitude of the oscillating electric field at your cell phone is 4.0 µV/m when you are 10 km east of the broadcast antenna. What is the electric field amplitude when you are 20 km east of the antenna?
A. 4.0 µV/m B. 2.0 µV/m C. 1.0 µV/m D. There’s not enough information to tell.
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A. 4.0 µV/m B. 2.0 µV/m C. 1.0 µV/m D. There’s not enough information to tell.
The amplitude of the oscillating electric field at your cell phone is 4.0 µV/m when you are 10 km east of the broadcast antenna. What is the electric field amplitude when you are 20 km east of the antenna?
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P ∝1/R2
E ∝1/R