A light beam of wavelength `lambda` incident on a silver sphere of radius r. suspended by a nonconducting thread. Find potentical aquired by sphere

A monochromatic light of wavelength lambda is incident on an isolated metallic sphere of radius a. The threshold wavelength is lambda_0 which is larger than lambda . Find the number of photoelectrons emitted before the emission of photoelectrons will stop.

A conducting sphere of radius r has a charge . Then .

In the path of a uniform light beam of large cross-sectional area and intensity I. a solid sphere of redius R which is perfectly reflecting is placed . Find the force exerted on this sphere due to the light beam.

Find the volume of the larges cylinder that can be inscribed in a sphere of radius r

A light beam of diameter sqrt(3R) is incident symmetrically on a glass hemisphere of radius R and of refractive index n=sqrt(3) . Find radius of the beam at the base of hemisphere.

A charge q is distributed uniformly on the surface of a sold sphere of radius R. It covered by a concentric hollow conduction sphere of radius 2R . Find the charges inner and outer surface of hollow sphere if it is earthed.

When light of wavelength lambda is incident on photosensitive surface, the stopping potential is V. When light of wavelength 3lambda is incident on same surface, the stopping potential is V/6 Threshold wavelength for the surface is

Find the number of sphere of radius r touching the coordinate axes.

Find the number of sphere of radius r touching the coordinate axes.

Find the volume of the largest cylinder that can be inscribed in a sphere of radius r