Light described at a place by the equation `E= (100 V(m^-1)) [sin (5 xx (10^15)m(s^-1))t + sin (8 xx (10^15)(s^-1)t]` falls on a metal surface having work function `2.0 eV`. Calculate the maximum kinetic energy of the photoelectrons.

Light described at a palce by te equation E=(100 V/m) [sinxx10^15 s ^(-1) t +sin (8xx 10^15 s^(-1) t] falls on a metal surface having work function 2.0 eV. Calcualte the maximum kinetic energy of the photoelectrons.

Light described at a place by the equation E = (100V//M) xx [sin (5 xx 10^(15) s^(-1)) t +sin (8 xx 10^(15) s^(-1))t] falls on a metal surface having work fucntion 2.0eV . Calculate the maximum kinetic energy of the similar having work function 1.9eV

Light described at a place by the equation E=(100V//m)[sin(6xx10^(15)s^(-1))t+sin(8xx10^(15)s^(-1))t] falls on a metal surface having work fuction 2.28 eV. The maximum energy of the photoelectrons is : (use h=6.63xx10^(-34)Js )

The electric field at a point associated with a light wave is E=(100Vm^-1) sin [(3*0x10^15 s^-1)t] sin [(6*0x10^15s^-1)t]. If this light falls on a metal surface having a work function of 2*0 eV, what will be the maximum kinetic energy of the photoelectrons?

Light wave described by the equation 200 V//m sin (1.5xx10^15 s^(-1) t cos (0.5xx10^15 s^(-1) t falls metal surface having work function 2.0 eV. Then, the maximum kinetic energy photoelectrons is

The electric field of certain radiation is given by the equation E = 200 {sin (4pi xx 10^10)t + sin(4pi xx 10^15)t} falls in a metal surface having work function 2.0 eV. The maximum kinetic energy 2.0 eV. The maximum kinetic energy (in eV) of the photoelectrons is [Plank's constant (h) = 6.63 xx 10^(-34)Js and electron charge e = 1.6 xx 10^(-19)C]

The magnetic field at a point associtated with a light wave is B=2xx10^(-6) Tesia sin[(3.0xx10^(15)S^(-1))t]sin [(6.0xx10^(15)S^(-1))t] . If this light falls on a metal surface having a work function of 2.0eV , what will be the maximum kinetic energy of the photoelectrons?

Statement-1 : Light described at a place by the equation E= E_(0) (sin omegat + sin 7 omegat) falls on a metal surface having work funcation phi_(0) . The macimum kinetic energy of the photoelectrons is KE_(max) = (7homega)/(2pi) - phi_(0) Statement-2 : Maximum kinetic energy of photoelectron depends on the maximum frequency present in the incident light according to Einstein's photoelectric effect equation.