A plane electromagnetic wave of waveleng...

A plane electromagnetic wave of wavelength `lambda` has an intensity I. It is propagating along the positive Y-direction. The allowed expression for the electric and magnetic fields ar given by :
`vecE=sqrt((2I)/(in_(0)c))cos[(2pi)/(lambda)(y-ct)]hatk`,

Similar Questions

Explore conceptually related problems

A plane electromagnetic wave propagating along y-direction can have the following pair of electric field (vecE) and magnetic field (vecB) components.

An electromagnetic wave with frequency omega and wavelength lambda travels in the + y direction. Its magnetic field is along + xaxis. The vector equation for the associated electric field (of amplitude E_(0) ) is

A plane electromagnetic wave travels in vacuum along y-direction. What can you say about the direction of electric and magnetic field vectors?

A plane electromagnetic wave is propagagting along the direction (hati+hatj)/(sqrt2), with its poklarization along the direction hatk. The correct from of the magnetic field of the wave would be (here B_(0) is an appropriate constant):

An electromagnetic wave is travelling in x-direction with electric field vector given by, vecE_y = E_A sin(kx= omega t) J . The correct expression for magnetic field vector is .

A plane electromagnetic wave of wavelength `lambda` has an intensity I. It is propagating along the positive Y-direction. The allowed expression for the electric and magnetic fields ar given by : `vecE=sqrt((2I)/(in_(0)c))cos[(2pi)/(lambda)(y-ct)]hatk`,

Similar Questions

Recommended Questions

A plane electromagnetic wave of wavelength `lambda` has an intensity I. It is propagating along the positive Y-direction. The allowed expression for the electric and magnetic fields ar given by :
`vecE=sqrt((2I)/(in_(0)c))cos[(2pi)/(lambda)(y-ct)]hatk`,