The electric field in an electromagnetic wave is given by
`E = 50 sin(2pi)/(lambda) (ct - N//C`
Find the energy contained in a cylinder of cross-section 10 cm and length 50 cm along the X-axis.

The electric field in an electromagnetic wave is given by E=( 50N C^-1) sin omega (t-x/c). Find the energy contained in a cylinder of cross section 10 cm^2 and length 50 cm along the x- axis.

The electric field in an electromagnetic wave is given by E( 50 N C^-1) sin omega (t-x/c). Find the energy contained in a cylinder of cross section 10 cm^2 and length 50 cm along the x- axis.

An electric field in an e.m.wave is given by E=200 sin .(2pi)/lambda(ct-x)NC^-1 . Find the energy contained in a cylinder of crossection 20 cm^2 and length 40 cm along the x-axis.

The electric vector vibration of an electromagnetic wave is given by E = (50NC^(-1)) sin omega(t-(x)/(c)) , The intensity of the wave is

The magnetic field in a plane electromagnetic wave is given by B = 200 (muT) sin 4 xx 10'^(-5)s^(1) (t-x//c) . Find the maximum magnetic and electric fields.

Magnetic field in a plane electromagnetic wave is given by B_y = (10^-7 T) sin (10^3pix + 2pi×10^11)hatj Then expression of electric field will be

The magnetic field in plane electromagnetic wave is given by B= 3.01 xx 10^(-7) sin (6.28 xx 10^(2)x + 2.2 xx 10^(10) t) I. [ where x in cm and t in second] The wavelength of the given wave is

The magnetic field in a plane electromagnetic wave is given by B_(y) = 2 xx 10^(-7) sin (0.5 xx 10^(3)x + 1.5 xx 10^(11) t) . This electromagnetic wave is

The maximum electric field in a plane electromagnetic wave is 600 N C^-1 . The wave is going in the x-direction and the electric field is in the y- direction. Find the maximum magnetic field in the wave and its direction.

The magnetic field in a plane electromagnetic wave is given by B= (200 (mu)T) sin [(4.0 x (10^15)(s^-1)(t-(x/c))] . Find the maximum electric field and the average energy density corresponding to the electric field .