Debroglie wavelength of uncharged particles depends on

Ratio of debroglie wavelengths of uncharged particle of mass m at 27^(0)C to 127^(0)C is nearly

Ratio of debroglie wavelengths of uncharged particle of mass m at 27degC to 127degC is nearly

Statement-1 : Among the particles of same kinetic energy, lighter particle has greater de brogile wavelength. and Statement-2 : The de-Brogile wavelength of a particle depends only on the charge of the particle.

A particle of charge q_(0) and of mass m_(0) is projected along the y -axis at t=0 from origin with a velocity V_(0) . If a uniform electric field E_(0) also exist along the x -axis, then the time at which debroglie wavelength of the particle becomes half of the initial value is:

Debroglie wavelength of a particle at rest position is

The kinetic energy of a particle is equal to the energy of a photon. The particle maves at 5% of the speed of light . The ratio of the photon wavelength to the de Broglie wavelength of the particle is [No nee to use reletivistic formula for particle.]

Two particles A and B of de-broglie wavelength lambda_(1) and lambda_(2) combine to from a particle C. The process conserves momentum. Find the de-Broglie wavelength of the particle C. (The motion is one dimensional).

The de Broglie wavelength lambda of a particle