Question

de-Broglie equation describes the relationship of wavelength associated with the motion of an electron and the? (a)mass only (b)velocity and mass (c)position (d)distance form the nucleus

Answer 1

Answer:

option (b) velocity and mass is your correct answer...

Explanation:

According to de-Broglie equation = λ = h/(mv)

Answer 2

Option (b)velocity and mass

The de-Broglie equation describes the relationship of wavelength associated with the motion of an electron and the velocity and mass.

Explanation:

• The de-Broglie wavelength is the wavelength (λ) associated with a particle and is related to its momentum (P) through the equation; P= h/ λ = v/f.
• It is the equation that is used to define the wave properties of matter.
• This equation basically describes the wave nature of electrons.
• This equation deals with the dual nature of a particle that has momentum and wavs with a certain frequency.
• This equation shows that the wavelength is inversely proportional to the momentum.
• The wavelength of the particle and residual nucleus will be in the ratio of 1:1