A plane electromagnetic waveis propagating towards z-axis.The electric field component is along `(hati + hatj)`. The magnetic component will be along—

Statement 1: During the propagation of electromagnetic wave along z-axis, if the electric field vecE at a point is along x-axis, then the magnetic field vecB at that point will be along y-axis. Statement II: In the direction of propagation of electromagnetic wave, the electric field vecE and the magnetic field vecB both form a right-handed cartesian coordinate system

A plane electromagnetic wave propagating along x-direction can have the following pairs of vecE and vecB

An electromagnetic wave is propagating along positive z-axis. At any moment, if the direction of the magnetic field at a point be along positive x-axis, what will be the direction of the electric field at that point?

A plane electromagnetic wave propagating along the x- direction has a wavelength of 6 mm. The electric field is along the y-direction and its maximum magnitude is 33 V . m^(-1) . Write down the equations for the electric and magnetic fields as a function of x and t.

An electromagnetic wave is propagating along X-axis. The magnitude of its electric vector vecE = 6 v//m at x = 1 m and t = 10 sec. The magnitude of its magnetic vector is —

Magnetic field at a distance x along the axis of a short bar magnet is

A plane electromagnetic wave is moving along X-direction in free space. At a certain location in a moment the electric field vector vec E = E_0 sin (wt - kx) hatj , where E_0 = 3 V/m. Write down the expression for the magnetic field vector vec B in that location.

An electric dipole is placed in a non-uniform electric field vecE . The electric field is along x direction. The dipole will experience