358925 A wave is propagating in a medium of dielectric constant 2 and relative permeability 50 . The wave impedance is

358926 A light beam travelling in the \(x\)-direction is described by the electric field \({E_y} = (300\;V/m)\sin \omega \,(t - x/c)\). An electron is constrained to move along the \(y\)-direction with a speed of \(2.0 \times {10^7}\;m/s\). Find the maximum magnetic force on the electron.

358927 A plane electromagnetic wave propagating in the \(x\) direction has a wavelength of \(5.0\;mm\). The electric field is in the y-direction and its maximum magnitude is \(30\;V/m\). Find equation for the electric field as a function of \(x\) and \(t.\)

358928 Out of the following options which one can be used to produce a propagating electromagnetic wave?

358925 A wave is propagating in a medium of dielectric constant 2 and relative permeability 50 . The wave impedance is

358926 A light beam travelling in the \(x\)-direction is described by the electric field \({E_y} = (300\;V/m)\sin \omega \,(t - x/c)\). An electron is constrained to move along the \(y\)-direction with a speed of \(2.0 \times {10^7}\;m/s\). Find the maximum magnetic force on the electron.

358927 A plane electromagnetic wave propagating in the \(x\) direction has a wavelength of \(5.0\;mm\). The electric field is in the y-direction and its maximum magnitude is \(30\;V/m\). Find equation for the electric field as a function of \(x\) and \(t.\)

358928 Out of the following options which one can be used to produce a propagating electromagnetic wave?

358925 A wave is propagating in a medium of dielectric constant 2 and relative permeability 50 . The wave impedance is

358926 A light beam travelling in the \(x\)-direction is described by the electric field \({E_y} = (300\;V/m)\sin \omega \,(t - x/c)\). An electron is constrained to move along the \(y\)-direction with a speed of \(2.0 \times {10^7}\;m/s\). Find the maximum magnetic force on the electron.

358927 A plane electromagnetic wave propagating in the \(x\) direction has a wavelength of \(5.0\;mm\). The electric field is in the y-direction and its maximum magnitude is \(30\;V/m\). Find equation for the electric field as a function of \(x\) and \(t.\)

358928 Out of the following options which one can be used to produce a propagating electromagnetic wave?

358925 A wave is propagating in a medium of dielectric constant 2 and relative permeability 50 . The wave impedance is

358926 A light beam travelling in the \(x\)-direction is described by the electric field \({E_y} = (300\;V/m)\sin \omega \,(t - x/c)\). An electron is constrained to move along the \(y\)-direction with a speed of \(2.0 \times {10^7}\;m/s\). Find the maximum magnetic force on the electron.

358927 A plane electromagnetic wave propagating in the \(x\) direction has a wavelength of \(5.0\;mm\). The electric field is in the y-direction and its maximum magnitude is \(30\;V/m\). Find equation for the electric field as a function of \(x\) and \(t.\)

358928 Out of the following options which one can be used to produce a propagating electromagnetic wave?