An em wave going through vacuum is described by `E=E_0sin(kx-omegat)`
`B=B_0sin(kx-omegat)`

An electromagnetic wave going through vacuum is described by E= E_0 sin(kx- omega t), B=B_0sin(kx-omega t) . Then

An electromagnetic wave going through vacuum is described by vecE=E_(0)sin(kx-wt) and vecB=B_(0)sin(kx-wt) . Which of the following equation is true?

An electromagnetic wave going through vacuum is described by E= E_0 sin(kx- omega t). Which of the following is/are independent of the wavelength?

An e.m. wave going through vacuum is denoted by E=E_0sin(kx-omegat) . Which of the following is /are independent of wavelength?

A electromagnetic wave going through a medium is given by E = E_(0)sin (kx – omegat) and B = B_(0) sin (kx – omegat) then

A plane EM wave travelling along z direction is described by E=E_0sin (kz-omegat) hati and B=B_0 sin (kz-omegat)hatj . show that (i) The average energy density of the wave is given by u_(av)=1/4 epsilon_0 E_0^2+1/4 (B_0^2)/(mu_0) . (ii) The time averaged intensity of the wave is given by I_(av)=1/2 cepsilon_0E_0^2 .

The electric field of an electromagnetic wave travelling through vaccum is given by the equation E = E_(0) "sin"(kx - omegat) The quantity that is independent of wavelength is

An electromagneti wave propagationg through vacuum is given B=B_(0)sin(kx-omega) . Which of the following is/are independent of frequency?

A travelling wave in a stretched string is described by the equation y = A sin (kx - omegat) the maximum particle velocity is