Deck 31: Maxwells Equations and Electromagnetic Waves

A)current.
B)gravitational field.
C)magnetic field.
D)radiation field.
E)none of the given answers

A)around a path that lies in a plane.
B)in a clockwise direction.
C)around a closed path.
D)around a circular path.
E)in a counter-clockwise direction.

A)south magnetic poles do not exist.
B)isolated magnetic poles sometimes exist.
C)north magnetic poles do not exist.
D)magnetic poles are pairs of electric charges.
E)isolated magnetic poles do not exist.

A)constant magnetic field.
B)changing magnetic field.
C)either a constant or a changing magnetic field.
D)none of the given answers

A)transverse.
B)circular waves.
C)alternating between longitudinal and transverse.
D)surface waves.
E)longitudinal.

A)elliptical waves.
B)longitudinal waves.
C)plane waves.
D)spherical waves.
E)circular waves.

A)net magnetic flux through a surface is zero.
B)net magnetic flux is zero.
C)net magnetic flux through a closed surface is zero.
D)magnetic flux is zero.
E)magnetic flux out of a surface is zero.

A)they are parallel to one another and perpendicular to the direction of wave propagation.
B)they are parallel to one another and parallel to the direction of wave propagation.
C)they are perpendicular to one another and perpendicular to the direction of wave propagation.
D)they are perpendicular to one another and parallel to the direction of wave propagation.
E)None of the above answers is correct.

A)299,792,458 m/s.
B)the basis for the meter.
C)a defined value instead of a measured value.
D)none of the above
E)all of the above

A)UV
B)infrared
C)radio waves
D)sound waves
E)gamma rays

A)Horizontal and pointing south
B)Vertical and pointing down
C)Horizontal and pointing north
D)Vertical and pointing up
E)Horizontal and pointing east

A)point the forefinger of your right hand toward E vector, middle finger toward the B vector, and the thumb will represent the propagation.
B)point the middle finger of your right hand toward the E vector, the forefinger toward the B vector, and the thumb will represent the direction of propagation.
C)point the fingers of your right hand toward the E vector, curl your fingers towards the B vector, and the thumb will point the direction of propagation.
D)point the fingers of your left hand toward the E vector, curl your fingers towards the B vector, and the thumb will point the direction of propagation.
E)None of the other answers is correct.

A)No, the gravitational force will always dominate if the object is large enough.
B)No, the gravitational force will always dominate if the object is close enough.
C)Yes, if the object is small enough, radiation pressure will win over.
D)Yes, but the object must be very large so that it can gain enough radiation pressure.
E)None of the previous answers is correct.

A)3 × 10^-7 T
B)5 × 10^-7 T
C)2 × 10^-7 T
D)1 × 10^-7 T
E)4 × 10^-7 T

A)x-y plane.
B)direction halfway between the x- and y-directions.
C)z-direction.
D)x-direction.
E)negative z-direction.

A)+z
B)-z
C)+y
D)+x
E)-x

A)radio waves, infrared, microwaves, UV, visible, X-rays, gamma rays
B)radio waves, UV, X-rays, microwaves, infrared, visible, gamma rays
C)radio waves, microwaves, infrared, visible, UV, X-rays, gamma rays
D)radio waves, microwaves, visible, X-rays, infrared, UV, gamma rays
E)radio waves, infrared, X-rays, microwaves, UV, visible, gamma rays

A)energy density.
B)power.
C)intensity.
D)radiation pressure.
E)radiation field.

A)radio waves, infrared, microwaves, UV, visible, X-rays, gamma rays
B)radio waves, UV, X-rays, microwaves, infrared, visible, gamma rays
C)radio waves, microwaves, visible, X-rays, infrared, UV, gamma rays
D)radio waves, microwaves, infrared, visible, UV, X-rays, gamma rays
E)radio waves, infrared, X-rays, microwaves, UV, visible, gamma rays

A)(ε_Oμ_O)^-3/2.
B)(ε_Oμ_O)^-1/2.
C)ε_Oμ_O.
D)(ε_Oμ_O)^-2.
E)(ε_Oμ_O)^-1.

A)+x
B)-x
C)+y
D)-y
E)+z

A)Galileo.
B)Roemer.
C)Einstein.
D)Newton.
E)Franklin.

A)The reflecting objects receives a larger amount of momentum.
B)Both objects receive the same amount of momentum.
C)The reflecting object receives a smaller amount of momentum.
D)None of the previous answers is correct.

A)0.7 × 10^-7 T
B)2.2 × 10^-7 T
C)8.1 × 10^-7 T
D)3.5 × 10^-7 T
E)1.3 × 10^-7 T

A)equally divided between the electric and magnetic fields.
B)almost entirely in the electric field.
C)indeterminate.
D)almost entirely in the magnetic field.
E)zero.

A)microwaves
B)infrared light
C)gamma rays
D)x-rays
E)ultraviolet light

A)Hz
B)Hz/s
C)kHz
D)GHz
E)MHz

A)east-west.
B)horizontal.
C)vertical.
D)north-south.
E)circular.

A)negative x-direction.
B)x-direction.
C)y-direction.
D)z-direction.
E)cannot be determined with the information given

A)40 GHz
B)4.0 GHz
C)0.75 GHz
D)75 GHz
E)7.5 GHz

A)3.0 × 10⁸ Hz
B)7.5 × 10¹⁴ Hz
C)2.3 × 10²⁰ Hz
D)4.0 × 10¹⁴ Hz
E)5.0 × 10⁸ Hz

A)200 × 10¹² Hz
B)300 × 10¹² Hz
C)400 × 10¹² Hz
D)500 × 10¹² Hz
E)600 × 10¹² Hz

A)1.50 × 10¹⁴ Hz
B)7.50 × 10¹³ Hz
C)7.50 × 10¹⁴ Hz
D)7.50 × 10¹⁵ Hz
E)1.50 × 10¹⁵ Hz

A)B_y = sin(kz - ωt)
B)B_y = cos(kz - ωt)
C)B_y = - sin(kz - ωt)
D)B_x = c E_o cos(kz - ωt)
E)B_y = - cos(kz - ωt)

A)1.7 × 10¹⁴ T
B)1.7 × 10³ T
C)1.7 × 10^-14 T
D)1.7 × 10⁴ T
E)1.7 × 10^-13 T

A)E_x = cB_osin(ky - ωt)
B)E_x = - cB_ocos(ky - ωt)
C)E_z = cB_osin(ky - ωt)
D)E_x = cB_ocos(ky - ωt)
E)E_x = - cB_osin(ky - ωt)

A)900 m
B)0.25 m
C)300 m
D)3.3 m
E)0.33 m

A)2.91 × 10^-6 T
B)1.90 × 10^-6 T
C)1.10 × 10^-6 T
D)1.41 × 10^-6 T
E)2.41 × 10^-6 T

A)636 V/m
B)636 N/C
C)636 J/Cm
D)All of the answers given are correct.
E)None of the answers given are correct.

A)1.50 × 10¹⁴ Hz
B)7.50 × 10¹³ Hz
C)7.50 × 10¹⁴ Hz
D)7.50 × 10¹⁵ Hz
E)1.50 × 10¹⁵ Hz

A)3.07 × 10^-2 m
B)2.07 × 10^-2 m
C)1.07 × 10^-2 m
D)5.07 × 10^-2 m
E)4.07 × 10^-2 m

A)k.
B)ω/2π.
C)k/ω.
D)ω.
E)ω/π.

A)B_y = 0.067 × 10^-8sin[(0.63 m^-1)z - (2.1 × 10^-9 s^-1)t] T
B)B_y = 0.067 × 10^-8sin[(0.63 m^-1)z + (2.1 × 10^-9 s^-1)t] T
C)B_y = 0.067 × 10^-8cos[(0.63 m^-1)z + (1.9 × 10⁸ s^-1)t] T
D)B_y = 0.067 × 10^-8cos[(10 m^-1)z - (2.1 × 10^-9 s^-1)t] T
E)B_y = 0.067 × 10^-8cos[(0.63 m^-1)z - (1.9 × 10^-8 s^-1)t] T

A)1.9 × 10^-2 s
B)0.45 × 10^-2 s
C)0.53 × 10^-2 s
D)1.3 × 10^-2 s
E)None of the other answers is correct.

A)3.1 m
B)0.32 m
C)2.9 × 10¹⁴ m
D)2.9 × 10¹⁶ m
E)not enough information given

A)B_y =

B)B_y =

C)B_y =

D)B_y =

E)B_y =

A)ω.
B)ω/k.
C)k.
D)k/ω.
E)ω/k².

A)B_z = cos(kx)cos(ωt)
B)B_z = - sin(kx)cos(ωt)
C)B_z = sin(kx)cos(ωt)
D)B_z = - cos(kx)sin(ωt)
E)B_z = cos(kx)sin(ωt)

A)1.0 × 10^-13 W/m²
B)1.5 × 10^-5 W/m²
C)3.0 × 10^-5 W/m²
D)2.0 × 10^-13 W/m²
E)7.5 × 10⁵ W/m²

A)4.5 × 10^-6 m³
B)3.3 × 10² m³
C)7.4 × 10^-4 m³
D)1.4 × 10³ m³
E)2.2 × 10⁵ m³

A)6.0 × 10⁵ m
B)0.66 × 10⁵ m
C)90 m
D)70 m
E)60 m

A)1.5 × 10³ V/m
B)0.000001 T
C)1.0 × 10^-6 V/m
D)3.0 × 10² V/m
E)3.2 × 10^-3 V/m

A)0.1 × 10³ W/m²
B)3.0 × 10³ W/m²
C)1.1 × 10³ W/m²
D)2.1 × 10³ W/m²
E)1.5 × 10³ W/m²

A)12.0 μT
B)13.0 μT
C)14.0 μT
D)15.0 μT
E)16.0 μT

A)2.28 × 10^-6 N/m²
B)1.63 × 10^-6 N/m²
C)7.83 × 10^-6 N
D)3.46 × 10^-6 N/m²
E)9.78 × 10^-6 N/m²

A)80 × 10¹² m
B)95 × 10¹⁴ m
C)30 × 10⁸ m
D)20 × 10¹⁵ m
E)36 × 10¹⁶ m

A)490 V/m
B)840 V/m
C)65 V/m
D)120 V/m
E)22 V/m

A)1.5 × 10^-9 kg∙m/s.
B)3 × 10^-9 kg∙m/s.
C)1 kg m/s.
D)1 × 10-17 kg∙m/s.
E)1000 kg m/s.

A)9.7 s
B)9.7 ms
C)9.7 μs
D)9.7 ns
E)9.7 ps

A)8.2 × 10^-4 T
B)3.3 × 10^-7 T
C)10 T
D)14 T
E)5.8 × 10^-4 T

A)1.4 × 10⁴ N
B)9.4 × 10^-5 N
C)1.4 × 10^-4 N
D)2.3 × 10^-5 N
E)4.7 × 10^-5 N

A)2.26 × 10^-4 J/m³
B)8.95 × 10^-5 J/m²
C)1.79 × 10^-4 J/m³
D)4.47 × 10^-4 J/m²
E)9.72 × 10^-5 J/m³

A)3 × 10^-5 N/m²
B)3 × 10^-7 N/m²
C)3 × 10^-8 N/m²
D)3 × 10^-4 N/m²
E)3 × 10^-6 N/m²

A)9.55 × 10¹⁴ Hz, ultraviolet
B)9.55 × 10¹⁴ Hz, X-ray
C)8.44 × 10¹⁵ Hz, X-ray
D)8.44 × 10¹⁵ Hz, ultraviolet
E)9.55 × 10¹⁵ Hz, ultraviolet