A plane electromagnetic wave propagating in the x-direction has wavelength of `6.0 mm`. The electric field is in the y-direction and its maximum magnitude of `33 Vm^(-1)`. The equation for the electric field as function of x and l is

A plane electromagnetic wave propagating in the x-direction has wavelength of 60 mm. The electric field is in the y-direction and its maximum magnitude is 33 V//m^(-1) .The equation for the electric field as function of x and t is:

A plane electromagnetic wave propagating in the x-direction has a wavelength of 6.0 mm. the electric field is in the y-direction and its maximum magnitude is 33 Vm^(-1) . Write suitable equations for the electric and magnetic fields as functions of x and t.

A plane electromagnetic wave propagating in the X-direction has a wavelength of 6 mm.The electric field is in the Y-direction and its maximum maagnitude is 33 Vm^(-1) .Write suitable equations for the electric and magnetic fields as a function of x and t.

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 30V (m^-1) . Write suitable equations for the electric and magnetic fields as a function of x and t.

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 30V (m^-1) . Write suitable equations for the electric and magnetic fields as a function of x and t.

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 30V (m^-1) . Write suitable equations for the electric and magnetic fields as a function of x and t.

A plane electromagnetic wave propagating along the x- direction has a wavelength of 6 mm. The electric field is along the y-direction and its maximum magnitude is 33 V . m^(-1) . Write down the equations for the electric and magnetic fields as a function of x and t.

A plane e.m. wave propagating in the x-direction has a wavelength 5.0 mm. The electric field is in the y-direction and its maximum magitude is 50Vm^_1 . Write the equation for the electric and magnetic fields as a function of x and t.

A plane e.m. wave propagating in the x-direction has a wavelength 6.0 mm. The electric field is in the y-direction and its maximum magitude is 33Vm^_1 . Write suitable equation for the electric and magnetic fields as a function of x and t.

A plane e.m. wave propagating in the x-direction has a wavelength 5.5 mm. The electric field is in the y-direction and its maximum magitude is 36Vm^_1 . Write suitable equation for the electric and magnetic fields as a function of x and t and find energy density of e.m. wave. Calculate the maximum electric and magnetic force on a charge q=2e, moving along y-axis with a speed of 3.0xx10^7ms^-1 , where e=1.6xx10^(-19)C .