An electron is at rest. Its wavelength is

A photon of wavelength lamda is scattered from an electron, which was at rest. The wavelength shift Delta lamda is three times of lamda and the angle of scattering theta is 60^@ . The angle at which the electron recoiled is phi . The value of tan phi is: (electron speed is much smaller than the speed of light)

A moving positron and electron both with kinetic energy 1 Me V annihilate with each other and emits two gamma photons. If the rest mass energy of an electron is 0.51 MeV, the wavelength of each photon is ?

A photon of wavelength lamda is scatted from an electron , which was at rest. The wavelength shift Deltalamda is three times of lamda and the angle of scattering theta is 60^@ . The angle at which the electron recoiled is phi . The value of tan phi is (electron speed is much smaller than the speed of light )

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.

The speed of an electron having its wavelength being equal to speed can vbegiven by :

The energy that should be added to an electron to reduce its de Broglie wavelength from lamda " to " lamda/2 is (Considering E to the energy of electron when its de Broglie wavelength is lamda )

Electrons used in electron microscope are of the wavelength

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 resolving power of electron microscope is higher that that of an optical microscope because the wavelength of electrons is ……. Than the wavelength of visible light.