The electric field of an electromagnetic wave in free spaces is given by `barE=5 cos(10^5t+kx)jat k V/m`, where t in second and x in metre then

The electric field on an electromagnetic wave in free space is given by E=10 cos (10^7t+kx) hatj V//m , Where t and x are in seconds and metres respectively. It can be inferred that (1) the wavelength lambda is 188.4m . (2) the wave number k is 0.33rad//m (3) the wave amplitude is 10V//m (4) the wave is propagating along +x direction. which one of the following pairs of statement is correct?

The electric field associated with an electromagnetic wave in vacuum is given by vecE=40cos(kz-6xx10^(8)t)hati, where E, z and t are in volt per meter, meter and second respectively. The value of wave vector k is

The electric field associated with an electromagnetic wave in vacuum is given by vecE=40cos(kz-6xx10^(8)t)hati, where E, z and t are in volt per meter, meter and second respectively. The value of wave vector k is

The electric field of a plane polarized electromagnetic wave in free space at time t = 0 is given by an expression vec(E) (x,y) = 10 hat(j) cos [(6 x + 8z)] The magnetic field vec(B) (x, z, t) is given by: (c is the velocity of light)

Electric field of an electromagnetic wave vecE = E_0 cos (omegat-kx)hatj . The equation of corresponding magnetic field at t=0 should be

The position of a particle is given by x=2(t-t^(2)) where t is expressed in seconds and x is in metre. The particle

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 electric field portion of an electromagnetic wave is given by ( all variables in SI units) E=10^(-4) sin (6xx10^(5)t -0.01x) The. Frequency (f) and the speed (v) of electromagnetic wave are

The electric field of a plane electromagnetic wave propagating along the x direction in vacuum is vecE = E_0 hatj cos (omegat - kx) . The magnetic field vecB , at the moment t=0 is :

The electric field part of an electromagnetic wave in vacuum is E=3.1cos[(1.8 rad/m ​ )y+(5.4×10^8 rad/s ​ )t] i^ . The frequency corresponding to the given part of electromagnetic wave is