An electron, an `alpha-`particle, and a proton have the same kinetic energy. Which of these particles has the shortest de Broglie wavelength?

An electron and a proton have the same kinetic energy. Identify the particle whose de Broglie wavelength would be greater

A proton and an electron have the same kinetic energy. Which one has large de Broglie wavelength?

Calculate the kinetic energy of an alpha -particle which has a de broglie wavelength 8 pm.

Write down the relationship between wavelength and energy of a photon? If a proton and an alpha particle is moving with the same kinetic energy, then what is the relationbetween their de Broglie wave length?

A proton and an alpha particle are accelerated through the same potential difference. Which one of the two has greater de Broglie wavelength,

An alpha -particle and a proton are accelerated through the same potential difference. Find the ratio of de Broglie wavelengths.

An electron and a proton have the same de Broglie wavelength. Which one has higher kinetic energy?

The french physicist Louis de Broglie in 1924 postulated that matter like radiation show a dual behaviour . He proposed the following relationship between the wavelength lambda of a material particle its linear momentum p and planck constant h lamda=h/p =h/(mv) The de broglie relation implies that the wavelength of a particle should decreases as its velocity increases . it also implies that for a given velocity heavier particles should have shorter wavelength than lighter particles. The waves associated with particles in motion are called matter waves or de broglie waves. These waves differ from the electromagnetic waves as they (i) have lower velocities (ii) have no electrical and magnetic fields and (iii) are not emitted by the particle under consideration . The experimental confirmation of the de-broglie relation was obtained when Davisson ans Germer in 1927 observed that a beam of electrons is diffracted by a nickel crystal . as diffraction a characteristics property of waves hence the beam of electron behaves as a wave, as proposed by de-broglie. If proton, electron and alpha -particle are moving with same kinetic energy then the order of de-Broglie's wavelength

An electron and a proton are moving in the same direction and posses same kinetic energies. Find the ratio of de Broglie wavelength associated with these particles.

An alpha -particle and a proton are accelerated from rest through the same potential difference V. Find the ratio of de Broglie wavelengths associated with them.