A sinusoidal electromagnetic wave having a magnetic field ofamplitude 1.50 μT and a wavelength of 422 nm is traveling in the+x direction through empty space.Part CWrite the equations for the electric and magnetic fields as functions of x and t.E = (450V/m) sin[(4.47 × 10¹5 rad/s)t – (1.49 × 107rad/m)x]B = (1.50µT) sin[(4.47 × 10¹5 rad/s)t – (1.49 × 107rad/m)x]E = (450V/m) sin[(4.47 × 10¹5 rad/s)t – (1.49 × 107rad/m)/x]B= (1.50μT) sin[(4.47 x 10¹5 rad/s)t + (1.49 x 107rad/m)/x]E = (450V/m) sin[(4.47 × 10¹5 rad/s)t + (1.49 × 107rad/m)x]B = (1.50μT) sin[(4.47 × 10¹5 rad/s)t + (1.49 × 107rad/m)x]E = (450V/m) sin[(4.47 × 10¹5 rad/s)t + (1.49 × 107rad/m)x]B = (1.50µT) sin[(4.47 × 10¹5 rad/s)t - (1.49 × 107rad/m)x]

An electromagnetic wave traveling in the positive x-direction is represented by the time-dependent…

Answered: A sinusoidal electromagnetic wave…

Similar questions

At some instant and location, the electric field associated with an electromagnetic wave in vacuum has the strength 84.1 V/m. Find the magnetic field strength B, the total energy density u, and the power flow per unit area, all at the same instant and location. B = T u = J/m3 power flow per unit area: W/m?
An electromagnetic wave strikes a 1.34-cm2 section of wall perpendicularly. The rms value of the wave's magnetic field is determined to be 8.68 × 10-4 T. How long does it take for the wave to deliver 2900 J of energy to the wall?
A future space station in orbit about the earth is being powered by an electromagnetic beam from the earth. The beam has a cross-sectional area of 166 m2 and transmits an average power of 2.35 × 104 W. What are the rms values of the (a) electric and (b) magnetic fields?
An electromagnetic wave has a peak magnetic field component of magnitude 1.5 x 10^-7 T and peak electric field component of 45 N/C. What is the value of the wave intensit? [40 = 4mx10-7 T.m/A] O 2.69 W/m 2 O 8.67 W/m^2 O 10.9 W/m 2 4.47 W/m 2
The intensity of a polarized electromagnetic wave is 10 W/m2. What will be the intensity after passing through a polarizing filter whose axis makes the following angles with the plane of polarization? (a) θ = 0°, (b) θ = 30°, (c) θ = 45°, (d) θ = 60°, (e) θ = 90°.
Suppose the magnetic field of an electromagnetic wave is given by B = : (1.3 × 10−¹0) sin(kx – wt) T. (a) What is the average energy density of the magnetic field of this wave? J/m³ (b) What is the average energy density of the electric field? J/m³
The magnetic component of an electromagnetic wave in vacuum has an amplitude of 95.0 nT and an angular wave number of 2.49 m-1. What are (a) the frequency of the wave, (b) the rms value of the electric component, and (c) the intensity of the light?
An electromagnetic wave in vacuum has an electric field amplitude of 510 V/m. Calculate the amplitude of the corresponding magnetic field. nT
In SI units, the electric field in an electromagnetic wave is described by E, = 106 sin(1.40 × 10’x – wt). (a) Find the amplitude of the corresponding magnetic field oscillations. UT (b) Find the wavelength å. um (c) Find the frequency f. Hz
The average intensity of sunlight reaching the earth is 1390 W/m2. A charge of 2.6 x 10-6 C is placed in the path of this electromagnetic wave. (a) What is the magnitude of the maximum electric force that the charge experiences? (b) If the charge is moving at a speed of 3.1 x 104 m/s, what is the magnitude of the maximum magnetic force that the charge could experience?
An electromagnetic wave with frequency 65.0 Hz travels in an insulating magnetic material that has dielectric constant 3.64 and relative permeability 5.18 at this frequency. The electric field has amplitude 7.20 × 10-³ V/m. Part A What is the speed of propagation of the wave? 17 ΑΣΦ V= Submit Request Answer Part B What is the wavelength of the wave? ΠΙ ΑΣΦ X = Submit Request Answer ? ? m/s m
Suppose the magnetic field of an electromagnetic wave is given by B = (2.7 x 10-10) sin(kx - wt) T. (a) What is the average energy density of the magnetic field of this wave? J/m³ (b) What is the average energy density of the electric field? J/m³

SEE MORE QUESTIONS

A sinusoidal electromagnetic wave having a magnetic field of amplitude 1.50 μT and a wavelength of 422 nm is traveling in the + direction through empty space.