The magnetic field of an electromagnetic wave is described by the function B=(2.01nT)∗sin(0.025x−ωt) where ω is the angular frequency of the wave. Determine the amplitude of the electric field.
Determine the frequency of the waves. Express your answer in MHz.
Determine the average intensity, in W/m2.
The magnetic field of an electromagnetic wave is described by the function B=(2.01nT)∗sin(0.025x−ωt) where ω is...
The magnetic field of an electromagnetic wave is described by By = B0cos(kx - ωt), where B0 = 3.5 × 10-6 T and ω = 2.5 × 107 rad/s. What is the amplitude of the corresponding electric field oscillations, E0, in terms of B0? What is the frequency of the electromagnetic wave, f, in terms of ω? What is the wavelength of the electromagnetic wave, λ, in terms of ω and the speed of light c?
The magnetic field of an electromagnetic wave in a vacuum is Bz=(4.0μT)sin((1.15×107)x−ωt), where x is in m and t is in s. What is the wave's wavelength? What is the wave's frequency? Note that the value of the angular frequency ω in the given wave equation is not provided! How are the frequency and the wavelength related? Express your answer to three significant figures and include the appropriate units.
The magnetic field of an electromagnetic wave is given by where B is measured in Tesla, x in meters, and t in seconds. a) What is the wavelength of the wave? Enter your answer in nm. b) What is the frequency (not the angular frequency) of the wave? Enter your answer in THz (terra-hertz), where 1 THz = 1012 Hz. c) What is the amplitude of the wave's electric field? Enter your answer in V/m. d) What is the average...
The magnetic field of an electromagnetic wave in a vacuum is Bz =(3.4μT)sin((9.50×106)x−ωt), where x is in m and t is in s. What are the wavelength, frequency, and amplitude?
Find the intensity of the electromagnetic wave described in each case (a) an electromagnetic wave with a wavelength of 595 nm and a peak electric field magnitude of 8.3 V/m W/m2 (b) an electromagnetic wave with an angular frequency of 5.5 x 1018 rad/s and a peak magnetic field magnitude of 10-10 T. W/m2
The electric field of an electromagnetic wave in a vacuum is Ey=(25.0V/m)cos((9.78×108)x−ωt),EyE_y=(25.0V/m)cos((9.78×108)x−ωt), where xx is in mm and tt is in ss. Part A What is the wave's wavelength? Express your answer with the appropriate units. Part B What is the wave's frequency? Express your answer with the appropriate units. Part C What is the wave's magnetic field amplitude? Express your answer with the appropriate units.
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
The maximum magnitude of the magnetic field in an electromagnetic wave is 499 μT. What is the maximum magnitude of the electric field in this wave? V/m The magnetic field in an electromagnetic wave has a peak value given by 374 μT. What is the peak intensity of this wave? W/m2 Tries 0/2 What is the average intensity of this wave? W/m2
3. The magnetic field of an electromagnetic wave is given as B-3uT sin( 1x10' x -2xfi) where r is in meters. a) Calculate wavelength and frequency. b) Calculate the energy of one photon, in Joules and in eV c) Calculate the electric field amplitude.
The magnetic field of an electromagnetic wave in a vacuum is Bz=(3.0μT)sin((1.4×107)x−2πft), where x is in m and t is in s. What is the wave's wavelength? What is the wave's frequency? What is the wave's electric field amplitude?