Magnetic field points in -y direction. Electric field and magnetic field both are perpendicular to each other and perpendicular to EM wave.
Option b is correct.
An EM wave passes point P, traveling in the -x direction. At one instant of time,...
An electromagnetic wave is propagating in the -x direction. At one instant, the electric field of this EM wave is pointing in the -z direction with a magnitude of 4.5e+005 N/C. At this same instant, 7. ac what are the magnitude and direction of the magnetic field of this EM wave? A 4.50e+005 T, in the -z direction B 6.67e+002 T, in the ty direction C 6.67e+002 T, in the -y direction 1.50e-003 T, in the -y direction 1.50e-003 T,...
Part A:
An electromagnetic wave is propagating in the positive
x direction. At a given moment in time, the magnetic field
at the origin points in the positive y direction. In what
direction does the electric field at the origin point at that same
moment?
Positive x
Negative x
Positive y
Negative y
Positive z
Negative z
Part B:
The figure shows the electromagnetic field as a function of
position for two electromagnetic waves traveling in a vacuum at a...
A sinusoidal electromagnetic wave in a vacuum is propagating in the positive y-direction. At a certain point in the wave at a certain instant in time, the magnetic field points in the positive z-direction. At the same point and at the same instant, the electric field points in the positive x-direction negative x-direction positive y-direction negative y-direction positive z-direction negative z-direction
For a certain electromagnetic wave traveling in +z direction in free space, if the electric field vector points in the -y direction and by using an EM filter we can alter the direction to the +x direction, which components would best describe the direction of the magnetic field vector before and after the change? +x, -y -x, -y +x, +y -x, +y
The electric field of an electromagnetic wave points in the negative y-direction. At the same time, the magnetic field of this wave points in the negative x-direction. In what direction is the wave traveling? +x-direction -x-direction +y-direction -y-direction +z-direction -z-direction Find the frequency of blue light with a wavelength of 454 nm. Hz What is the rms value of the electric field in a sinusoidal electromagnetic wave that has a maximum electric field of 94 V/m? V/m
An electromagnetic wave traveling in vacuum as illustrated. At
this instant in time, the electric field is at a maximum at point
a, and is zero at point b. The frequency of this wave is 89.964 MHz
(your local 'Planet' radio station). Determine the distance from
the origin to the point marked b along the y axis.
x В
A plane electromagnetic wave traveling in the positive direction of an x axis in vacuum has components E_x = E_y = 0 and E_z = (4.3 V/m) cos[(pi times 10^15 s^-1)(t - x/c)].(a) What is the amplitude of the magnetic field component? (b) Parallel to which axis does the magnetic field oscillate? (c) When the electric field component is in the positive direction of the z axis at a certain point P, what is the direction of the magnetic field...
8. The y-component of the electric field of an electromagnetic(EM) field traveling in the x-direction through vacuum obeys the equation E~ y(x, t) = (325 N/C) cos[(4500 m−1 )x − (1.35 × 1012 rad/s)t + 0.6]ˆj (a) What are the wavelength and frequency of the EM wave? (b) Write an equation for the magnetic field vector of the EM field. (c) What is the average Poynting vector? I need all parts of this question. Thanks!
A plane electromagnetic wave
traveling in the positive direction of an x axis in vacuum has
components Ex = Ey = 0 and Ez = (4.2 V/m) cos[(? × 1015 s-1)(t -
x/c)].(a) What is the amplitude of the magnetic field component?
(b) Parallel to which axis does the magnetic field oscillate? (c)
When the electric field component is in the positive direction of
the z axis at a certain point P, what is the direction of the
magnetic field...
[1 point] A negatively charged particle has a velocity in the negative z-direction at point P. The magnetic force on the particle at this point is in the negative y-direction. Which of the following statements about the magnetic field at point P can be determined from this data? [Notation: "B"represents the magnitude of the component of the magnetic field in the i-tih direction.] 1.) What information can be deduced about B,? a. Br is negative. b. B is positive. c....