Chapter 35, Problem 033Your answer is partially correct. Try again.Three electromagnetic waves travel through a certain point P along an x axis. They are polarized parallel to a y axis, with thefollowing variations in their amplitudes. Find their resultant at P.E1 = (3.0 x 10-5 v/m) sin[(2.0 × 1014 rad/s)t]E2 = (6.0 x 10-6 V/m) sin[(2.0 x 1014 rad/s)t + 45°]Ez = (6.0 x 10-6 V/m) sin[(2.0 × 1014 rad/s)t - 45°]E =µV/m) sin[(l2.00x 1014 | rad/s)t +° (degrees)

Using Superposition principle The resultant electric field at any point is vector sum of the…

Answered: Three electromagnetic waves travel…

Similar questions

An electromagnetic wave in vacuum travels in the +x-direction with Emax = 455 V/m and a wavelength of 12.7 m. Calculate the x-component of its Poynting vector at x = 0, t = 0.13 μs. (Use c = 2.9979 × 108 m/s)
A source of sinusoidal electromagnetic waves radiates uniformly in all directions. At a distance of 10.0 m from this source, the amplitude of the electric field is measured to be 3.20 N/C.
At an instant in time, the electric and magnetic fields of an electromagnetic wave are given by É = -3.81 × 103k V/m and B = -1.27 x 10¬1'i T. Find the Poynting vector for this wave. (Express your answer in vector form.) S = W/m?
. The electric field associated with an electromagnetic wave in vacuum is given by E = i 40 cos (kz - 6 x 10°t), where E, z and t are in V/m, metre and second, respectively. The value of wave vector k is (a) 2 m-1 (c) 6 m-1 (b) 0.5 m- (d) 3 m-1
A linearly polarized sinusoidal electromagnetic wave moving in the positive x direction has a wavelength of 7.60 mm. The magnetic field of the wave oscillates in the xz plane and has an amplitude of 6.90 µT. The magnitude of the electric field vector for this wave can be written as E = Emax sin(kx – øt). What are the following? (a) the value of Emax 2070 V/m (b) the wave number k 826.73 m-1 (c) the angular frequency w 2.48e11 rad/s (d) the plane in which the electric field oscillates the xz plane the yz plane the xy plane (e) the average Poynting vector (Express your answer in vector form.) Sav 11.37 · 10°i X W/m² (f) the radiation pressure exerted by this wave on a perfectly reflecting lightweight solar sail 3.79e-5 Pa (g) the acceleration of the solar sail if its dimensions are 5.00 m x 8.00 m and its mass is 40.0 g 0.038 m/s²
Consider electromagnetic waves propagating in air. Determine the frequency of a wave with a wavelength of 5.30 nm f = 5.66x10¹6 Hz Submit Previous Answers ✓ Correct Part D What is the wavelength (in meters) of gamma rays of frequency 6.53x1021 Hz ? Π| ΑΣΦ C ? λ = Submit m Request Answer Part E What is the wavelength (in nanometers) of gamma rays of frequency 6.53×1021 Hz ? ΠΙ ΑΣΦ C λ = nm