A laser beam has intensity `2.5` x `(10^14)W (m^-2)`. Find the amplitudes of electric and magnetic fields in the beam.

A laser beam has intensity 2.5 xx 10^14W m^-2 . Find the amplitudes of electric and magnetic fields in the beam.

Find the amplitude of electric and magnetic fields in parallel beam of light of intensity 4.0 Wm^(-2)

The intensity of the sunlight reaching the earth is 1380 W(m^-2). Assume this light to be a plane, monochromatic wave. Find the amplitudes of electric and magnetic field in this wave.

(i) Find the energy stored in a 90 cm length of a laser beam operating at 6 mW . (ii) Find the amplitude opf electric field in a parallel beam of light of intensity 17.7 W//m^(2) .

A light beam travelling in the x- direction is described by the electric field E_y=(300V (m^-1) sin omega (t-(x//c)) . An electron is constrained to move along the y-direction with a speed (2.0 xx (10^7) m (s^-1)) . Find the maximum electric force and the maximum magnetic force on the electron.

A light beam travelling in the x- direction is described by the electric field E_y=300V m^-1 sin omega (t-(x//c)) . An electron is constrained to move along the y-direction with a speed 2.0 xx 10^7 ms^-1 . Find the maximum electric force and the maximum magnetic force on the electron.

A light beam travelling in the x-direction is described by the electric field : E_(y) = 270 "sin" omega(t-(x)/(c)). An electron is constrained to move along the y-direction with a speed of 2.0xx10^(7) "ms"^(-1). find the maximum electric force and maximum magnetic force on the electron.

In a place e.m wave, the electric field oscillates sinusoidally at a frequency of 2.5xx10^(10)Hz and amplitude 480 V//m .The amplitude of oscillating magnetic field will be,

A proton is moving with a velocity of 5 xx 10^(5) m//s along the Y-direction. It is acted upon by an electric field of intensity 10^(5) V/m along the X-direction and a magnetic field of 1 Wb//m^(2) along the Z-direction. Then the Lorentz force on the particle is :

Find the amplitude of the electric field in a parallel bean of light of intensity 2.0 W m^-2.