For which of the following particles will it be most difficult to experimentally verify the de-Broglie relationship?
A proton
A dust particle
An electron
An α−particle
A
An electron
B
A proton
C
An α−particle
D
A dust particle
Open in App
Solution
Verified by Toppr
A dust particle will it be most difficult to experimentally verify the de-Broglie relationship .
Was this answer helpful?
0
Similar Questions
Q1
For which of the following particles will it be most difficult to experimentally verify the de-Broglie relationship?
View Solution
Q2
During an experiment an α- particle and a proton are having a difference , their de Broglie wavelenght ratio will be
View Solution
Q3
Dual nature of matter was proposed by de Broglie in 1923, it was experimentally verified by Davisson and Germer by diffraction experiment. Wave character of matter has significance only for microscopic particles. de Broglie wavelength or wavelength of matter wave can be calculated using the following relation: λ=hmv where, 'm' and 'v' are the mass and velocity of the particle. de Broglie hypothesis suggested that electron waves were being diffracted by the target, much as X-rays are diffracted by planes of atoms in the crystals.
De-Broglie equation is obtained by combination of which of the following theories?
View Solution
Q4
Dual nature of matter was proposed by de Broglie in 1923, it was experimentally verified by Davisson and Germer by diffraction experiment. Wave character of matter has significance only for microscopic particles. de Broglie wavelength or wavelength of matter wave can be calculated using the following relation: λ=hmv where, 'm' and 'v' are the mass and velocity of the particle. de Broglie hypothesis suggested that electron waves were being diffracted by the target, much as X-rays are diffracted by planes of atoms in the crystals.
Planck's constant has same dimension as that of:
View Solution
Q5
The ratio of the De Broglie wavelengths of a proton and α-particles will be 1:2 if their: