Average energy density of electromagnetic field of a wave having amplitude of `48 V m^-1` is

Relation between average energy density of the electric field vec E and the average energy density of the magnetic field vec B is

Give the expression for the energy density of magnetic field.

In a plane electromagnetic wave, the electric field oscillates sinusoidally at a frequency of 2.0 xx 10^(10) Hz and amplitude 48 V m^(–1) . (a) What is the wavelength of the wave? (b) What is the amplitude of the oscillating magnetic field? (c) Show that the average energy density of the E field equals the average energy density of the B field. [c = 3 xx 10^(8) m s^(-1).]

The amplitude of the sinusoidally oscillating electric field of a plane wave is 60 V/m. Then the amplitude of magnetic field is

Statement 1 : The energy in an electromagnetic waves is divided equally between the electric and magnetic fields. Statement 2 : Energy density of electric field as well as magnetic field is given by one relation only i.e. U_E = 1/2 in_0E^2 .

A plane wave front of electromagnetic field is travelling with a speed c in + z direction. vec B and vec E are transverse to each other and uniform throughout the left of the wave-front and zero on the right of the wave-front. Then

A plane electromagnetic wave of frequency 20 MHz travels through a space along x direction. If the electric field vector at a certain point in space is 6 V m^(-1) , what is the magnetic field vector at that point ?