The maximum electric force acting on the electron is Fe=eE0.
The maximum magnetic force acting on the electron is Fm=evB0, where v is the speed of the electron and B0 is the maximum magnetic field.
The ratio of the maximum electric force to the maximum magnetic force is given by FmFe=evB0eE0=vB0E0.
For an electromagnetic wave, the ratio of the amplitudes of the electric and magnetic fields is B0E0=c, where c is the speed of light in vacuum.
Substituting this into the ratio of forces yields FmFe=vc.
Given c=3×108 m/s and v=1.5×106 m/s, we get FmFe=1.5×1063×108=200.
Answer: 200