1. The electric field of an electromagnetic wave traveling through vacuum is the following: 5.90x1 :...
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!
The electric field of an electromagnetic wave traveling in the vacuum of space is described by E = (4.60 ✕ 10−3) sin(kx − ωt) V/m. (a) What is the maximum value of the associated magnetic field for this electromagnetic wave? ____T (b) What is the average energy density of the wave? ___J/m3
A traveling electromagnetic wave in a vacuum has an electric field amplitude of 515 V/m . Calculate the intensity of this wave. Then, determine the amount of energy that flows through area of .0293 m^2 over an interval of 15.5 s , assuming that the area is perpendicular to the direction of wave propagation.
Timer Evalt The components of the electric field in an electromagnetic wave traveling in vacuum are described by Ex = 0, y = 0, and Ez = 4.69 sin(3.81x - wt) V/m, where x is measured in meters and t in seconds. Calculate the frequency of the wave. E Tries 0/12 Calculate the wavelength of the wave. ** Tries 0/12 Calculate the amplitude of the magnetic field of the wave. SK Tries 0/12 Calculate the intensity of the wave. Tries...
A traveling electromagnetic wave in a vacuum has an electric field amplitude of 68.3 V/m . Calculate the intensity ? of this wave. Then, determine the amount of energy ? that flows through area of 0.0269 m2 over an interval of 18.1 s , assuming that the area is perpendicular to the direction of wave propagation. S= W/m^2 U= J
A traveling electromagnetic wave in a vacuum has an electric field amplitude of 85.9 V/m. Calculate the intensity of this wave. Then, determine the amount of energy U that flows through area of 0.0275 m² over an interval of 19.5 s, assuming that the area is perpendicular to the direction of wave propagation. U=
The maximum magnetic field of an electromagnetic wave traveling in a vacuum is Bo = 2.3 x 10^-5 T. What is the average intensity of this electromagnetic wave? a.) 6.3 x 104 W/m2 b.) 1.3 x 105 W/m2 c.) 1.2 x 105 W/m2 d.) 1.3 x 104 W/m2 e.) 6.3 x 105 W/m2
A traveling electromagnetic wave in a vacuum has an electric field amplitude of 92.7 V/m. Calculate the intensity of this wave. Then, determine the amount of energy U that flows through area of 0.0267 m² over an interval of 14.7s, assuming that the area is perpendicular to the direction of wave propagation. S= U-L
A traveling electromagnetic wave in a vacuum has an electric field amplitude of 52.7 V/m. Calculate the intensity S of this wave. Then, determine the amount of energy U that flows through area of 0.0293 m² over an interval of 11.9 s, assuming that the area is perpendicular to the direction of wave propagation. S= U=
- A2-1 11.2) A certain electromagnetic field traveling in vacuum has a maximum electric field of 1200 V/m. (c = 3.00 x 10 m/s, Lo = 41 x 10" T.m/A, ED = 8.85 x 10-12 C2/ N m ?) (a) What is the maximum magnetic field of this wave? (b) What is the average energy density of the wave? (c) What is the average intensity of the wave?