The minimum wavelength of photon is `5000 Å` , its energy will be

If aperture diameter of the lens of a telescope is 1.25 m and wavelength of light used is 5000 Å its resolving power is

The wavelength of a photon is 1.4 Å . It collides with an electron. Its wavelength after collision is 2.0 Å . Calculate the energy of the scattered electron.

If wavelength of radiation is 4000Å=400nm then the energy of the photon is

A photon of wavelength 3310Å falls on a photocathode and an electron of energy 3xx10^(-19)J is ejected. If the wavelength of the incident photon is changed to 5000Å, the energy of the ejected electron is 9.72xx10^(-20)J . Calculate the value of Planck's constant and threhold wavelength of the photon.

The wavelength of the photons are 4500 Å and 6000 Å. The ratio of their energies is

The wavelength of a photon is 1.4Å. It collides with an electron. Its wavelength after collision is 4Å. Calculate the energy of scattered electron. h=6.62xx10^(-34)Js

The wavelength of a photon is 1.4 Å. It collides with an electron. The energy of the scattered electron is 4.26xx10^(-16) J. Find the wavelength of photon after collision.

The photoelectric threshold wavelength for tungsten is 2400 Å . Determine the energy of the electrons ejected from its surface when exposed to ultraviolet radiations of wavelength 1200 Å .

The wavelength of a spectral line is 4000 Å . Calculate its frequency and energy.