If E and B represent electric and magnetic field vectors of the electromagnetic waves respectively, then the direction and magnitude of propagation of the electromagnetic wave is given as ......*1 pointE.HH.E(E x B)/μ0B x H

f E→ and K→ represent electric field and propagation vectors of the EM waves in vacuum, then magnetic field vector is given by: ( ω - angular frequency) :

The electric field of an electromagnetic wave in free space is represented as E⃗ =E0cos(ωt−kz)iˆ.The corresponding magnetic induction vector will be :

A plane electromagnetic wave of frequency 35 MHz travels in free space along the X-direction. At a particular point (in space and time) E⃗ =9.6jˆ V/m. The value of magnetic field at this point is :

In a region of space, an electromagnetic wave moves to the right, as indicated in the above diagram. At one moment, the magnitude of the electric field at the indicated point is |𝐸→|=2991 N/C, and its direction is out of the page. In the following questions, use 𝑐=3×108 𝑚/𝑠.A. At this point and time, what is the magnitude of the associated magnetic field? 0 𝑇

A plane electromagnetic wave travels in a medium of relative permeability 1.6 and relative permittivity 6.44. If magnitude of magnetic intensity is 4.5 × 10–2 A m–1 at a point, what will be the approximate magnitude of electric field intensity at that point? (Given: permeability of free space  μ0  =  4π × 10−7​N​A−2, speed of light in vacuum c = 3 × 108 m/s)