[" Two identical nonrelativistic particles move at right angles to each other,possessing de-Brogile "],[" wavelengths,"lambda_(1)& lambda_(2)" .Find the de-Broglie wavelength of each particle in the frame of their centre of "],[" mass."]

Two identical non-re,aticivistic particles move at right angle to each other. Possesing de Broglie wavelength lambda_(1) and lambda_(2) Find the Broglie wavelength of each particle in the frame of their centre of inertia.

Two identical non-relaticivistic particles move at right angle to each other. Possesing de Broglie wavelength lambda_(1) and lambda_(2) Find the Broglie wavelength of each particle in the frame of their centre of inertia.

Two identical non-re,aticivistic particles move at right angle to each other. Possesing de Broglie wavelength lambda_(1) and lambda_(2) Find the Broglie wavelength of each particle in the frame of their centre of inertia.

The de Broglie wavelength lambda of a particle

Two identical non-relativitic partcles A and B move at right angles to each othre, processing de Broglie wavelengths lamda_1 and lamda_2 , respectively. The de Broglie wavelength of each particle in their centre of mass frame of reference is

The de-Broglie wavelength lambda

de-Broglie wavelength lambda is

The de Broglie wavelength (lambda) of a particle is related to its kinetic energy E as

Two electrons are moving with non-relativistic speeds perpendicular to each other. If corresponding de Broglie wavelengths are lambda_(1) and lambda_(2) their the Brogile wavelength in the frame of reference attached to their centre of mass is :