Dual character of an electron was explained by
a) Bohr
b) Heisenberg
c) de-Broglie
d) Pauli
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Answered by
3
Answer ⇒ Option (c). de-Broglie.
Explanation ⇒ Eisenstein has suggested that the light can behaves as the Particles as well as the wave, i.e.e it has the dual character.
After this, de-Broglie suggested that similarly with the light some microscopic particles such as electrons, protons, neutrons, or molecules, etc also shows the dual character.
They also behaves as the Particles and also as the waves. Thus, Electron which is the particles also behaves like the waves.
Thus, according to the De-Broglie, all particles in the motion posses waves characteristics.
The de-broglie wavelength is given by the Formula,
λ = h/mc.
Hence, Option (c) is correct.
Hope it helps.
Explanation ⇒ Eisenstein has suggested that the light can behaves as the Particles as well as the wave, i.e.e it has the dual character.
After this, de-Broglie suggested that similarly with the light some microscopic particles such as electrons, protons, neutrons, or molecules, etc also shows the dual character.
They also behaves as the Particles and also as the waves. Thus, Electron which is the particles also behaves like the waves.
Thus, according to the De-Broglie, all particles in the motion posses waves characteristics.
The de-broglie wavelength is given by the Formula,
λ = h/mc.
Hence, Option (c) is correct.
Hope it helps.
Answered by
1
according to the De-Broglie, all particles in the motion posses waves characteristics.
The de-broglie wavelength is given by the Formula,
λ = h/mc.
Hence, Option (c) is correct.
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