(1) In free space at a pont magnitude of electric field vector `(vecE)` is 9.3 `V//m`. Find the magnitude of magnetic field vector `(vecB)` at the point
(2). Out of ultraviolet infrared and X-rays whose wavelength is maximum ?

A : In an EM wave the magnitude of the electric field vector is more than the magnitude of the magnetic field vector. R : Energy of the EM wave is shared equally between the electric and magnetic fields.

find the magnitude of the electric field at the point P in the configuration shown in figure for dgtgta, Take2qa = p.

An electroagnetic wave is propagating along x-axis. At x = 1 m and t = 10 s, its electric vector |vecE|=6V//m then the magnitude of its magnetic vector is

Statement-1 : In an e.m. wave magnitude of magnetic field vector vec B is much smaller than the magnitude of vector vecE Statement-2 : this is because in and e.m. wave E//B=c=3xx10^(8) m//s .

The potentaial function of an electrostatic field is given by V = 2 x^2 . Determine the electric field strength at the point (2 m, 0, 3 m) .

In an electromagnetic wave in free space the root mean square value of the electric field is E_(rms)=6 V//m . The peak value of the magnetic field is

In an electromagnetic wave in free space the root mean square value of the electric field is E_(rms)=6 V//m . The peak value of the magnetic field is

A particle lies in space at point ( 2,3,4) find the magnitude of its position vector.

In fig, two particles, each of charge -q are arranged symmetrically about the y-axis, each producing an electric field at point P on the y-axis. . (a) Are the magnitudes of the fields at P equal? (b) Is each electric field directed towards or away form the charge producing it ? (c ) Is the magnitude of the net electric field at P equal to the sum of the magnitudes E of the two field vectors (is it equal to 2E)? (d) Do the x-components of those two field vectors add or cancel? (e ) Do their y-components add or cancel? (f) Is the diretion of the net field at P that of the canceling components or the adding components? (g) What is the direction of the net field?

A light wave is travelling along +y axis. At a particular point on a given time, electric field vector is along + x axis then the magnetic field vector is directed along: