Show that the wavelength of a moving particle is relased to its kinetic energy `(E ) as lambda = (h)/(2mE)^(1//2)`

de Broglie wavelength of a moving particle is lambda . Its momentum is given by :

If the kinetic energy of a moving particle is E , then the de-Broglie wavelength is

The de broglie wavelength of electron moving with kinetic energy of 144 eV is nearly

A particle moving with kinetic energy E_(1) has de Broglie wavelength lambda_(1) . Another particle of same mass having kinetic energy E_(2) has de Broglie wavelength lambda_(2). lambda_(2)= 3 lambda_(2) . Then E_(2) - E_(1) is equal to

A particle moving with kinetic energy E_(1) has de Broglie wavelength lambda_(1) . Another particle of same mass having kinetic energy E_(2) has de Broglie wavelength lambda_(2). lambda_(2)= 3 lambda_(2) . Then E_(2) - E_(1) is equal to

In SHM , potential energy of a particle at mean position is E_(1) and kinetic enregy is E_(2) , then

The wavelength lambda of a photon and the de-Broglie wavelength of an electron have the same value. Show that the energy of the photon is (2 lambda mc)/h times the kinetic energy of the electron, Where m,c and h have their usual meanings.

The deBroglie wavelength of a particle of kinetic energy K is lamda . What would be the wavelength of the particle, if its kinetic energy were (K)/(4) ?

An electron and a photon have same wavelength lambda , what is ratio of their kinetic energies ?

A particle of mass m has half the kinetic energy of another particle of mass m/2 . If the speed of the heavier particle is increased by 2 ms^(-1) its new kinetic energy becomes equal to t he original kinetic energy of the lighter particle. The ratio of the orighinal speeds of the lighter and heavier particle is