In electromagnetic wave, the phase difference between electric and magnetic field vactors E and B is

In electromagnetic wave, the phase difference between electric and magnetic field vectors E and B is

In electromagnetic waves, the phase difference between magnetic and electric field vectors is

Can an electromagnetic wave be deflected by an electric field? By a magnetic field ?

In an electromagnetic wave the electric field vector and magnetic field vector are given as vecE=E_(0)hati and vecB=B_(0)hatk respectively. The direction of propagation of electromagnetic wave is along:

In electromagnetic wave, if vecE,vecB and vecv are the electric field vector, magnetic field vector and velocity vector of electromagnetic wave, then

The relation between electric field E and magnetic field H in an electromagnetic wave is

Assertion : Electromagnetic waves are transverse in nature Reason : The electric and magnetic fields in electromagnetic waves are perpendicular to each other and to the direction of propagation.

Show that instantaneous energy density in electromagnetic wave is equally divided among electric and magnetic field.

An electromagnetic wave consists of oscillating electric and magnetic fields. What is the phase relationship between these fields?