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Bohr’s Atomic Model

Electron can revolve in certain non-radiating orbits called stationary or bits for which the angular momentum of electron is an integer multiple of (h / 2π)

mvr = nh / 2π

where n = I, 2. 3,… called principle quantum number.

Bohr`s Atomic ModelBohr's Atomic Model

The radiation of energy occurs only when any electron jumps from one permitted orbit to another permitted orbit.

Energy of emitted photon

hv = E2 – E1

where E1 and E2are energies of electron in orbits.

Radius of orbit of electron is given by

r = n2h2 / 4π2 mK Ze2 ⇒ r ∝ n2 / Z

where, n = principle quantum number, h = Planck’s constant, m = mass of an electron, K = 1 / 4 π ε, Z = atomic number and e = electronic charge.

Velocity of electron in any orbit is given by

v = 2πKZe2 / nh ⇒ v ∝ Z / n

Frequency of electron in any orbit is given by

v = KZe2 / nhr = 4π2Z2e4mK2 / n3 h3

⇒ v prop; Z3 / n3

Kinetic energy of electron in any orbit is given by

Ek = 2π2me4Z2K2 / n2 h2 = 13.6 Z2 / n2 eV

Potential energy of electron in any orbit is given by

Ep = – 4π2me4Z2K2 / n2 h2 = 27.2 Z2 / n2 eV

⇒ Ep = ∝ Z2 / n2

Total energy of electron in any orbit is given by

E = – 2π2me4Z2K2 / n2 h2 = – 13.6 Z2 / n2 eV

⇒ Ep = ∝ Z2 / n2

Wavelength of radiation emitted in the radiation from orbit n2 to n1 is given by

Bohr’s Atomic Model & Electron Orbits | Physics Class 12 - NEET

In quantum mechanics, the energies of a system are discrete or quantized. The energy of a particle of mass m is confined to a box of length L can have discrete values of energy given by the relation

En = n2 h2 / 8mL2 ; n < 1, 2, 3,…

Question for Bohr’s Atomic Model & Electron Orbits
Try yourself:According to Bohr's atomic model, what is the condition for the electron's angular momentum in a stationary orbit?
View Solution

Angular Momentum Of Electron

What is Angular Momentum of Electron?

Angular momentum of an electron by Bohr is given by mvr or nh/2π (where v is the velocity, n is the orbit in which electron is, m is mass of the electron, and r is the radius of the nth orbit).

Bohr’s atomic model laid down various postulates for the arrangement of electrons in different orbits around the nucleus. According to Bohr’s atomic model, the angular momentum of electron orbiting around the nucleus is quantized. He further added that electrons move only in those orbits where angular momentum of an electron is an integral multiple of h/2. This postulate regarding the quantisation of angular momentum of an electron was later explained by Louis de Broglie. According to him, a moving electron in its circular orbit behaves like a particle wave.

De Broglie’s Explanation to the Quantization of Angular Momentum of Electron:

The behaviour of particle waves can be viewed analogously to the waves travelling on a string. Particle waves can lead to standing waves held under resonant conditions. When a stationary string is plucked, a number of wavelengths are excited. On the other hand, we know that only those wavelengths survive which form a standing wave in the string, that is, which have nodes at the ends.

Quantization of Angular Momentum of ElectronQuantization of Angular Momentum of Electron

Thus, in a string, standing waves are formed only when the total distance travelled by a wave is an integral number of wavelengths. Hence, for any electron moving in kth circular orbit of radius rk, the total distance is equal to the circumference of the orbit, 2πrk.

2πrk = kλ
Let this be equation (1).
Where,
λ is the de Broglie wavelength.
We know that de Broglie wavelength is given by:
λ = h/p
Where,
p is electron’s momentum
h = Planck’s constant
Hence,
λ = h/mvk

Let this be equation (2).
Where mvk is the momentum of an electron revolving in the kth orbit. Inserting the value of λ from equation (2) in equation (1) we get,
2πrk = kh/mvk

mvkrk = kh/2π
Hence, de Broglie hypothesis successfully proves Bohr’s second postulate stating the quantization of angular momentum of the orbiting electron. We can also conclude that the quantized electron orbits and energy states are due to the wave nature of the electron.

The document Bohr’s Atomic Model & Electron Orbits | Physics Class 12 - NEET is a part of the NEET Course Physics Class 12.
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FAQs on Bohr’s Atomic Model & Electron Orbits - Physics Class 12 - NEET

1. What is Bohr's atomic model?
Ans. Bohr's atomic model, proposed by Niels Bohr in 1913, describes the structure of an atom with electrons orbiting around the nucleus in specific energy levels.
2. What is the angular momentum of an electron in Bohr's atomic model?
Ans. The angular momentum of an electron in Bohr's atomic model is quantized, meaning it can only have certain discrete values determined by Planck's constant and the electron's orbit.
3. How does Bohr's atomic model explain electron orbits?
Ans. Bohr's atomic model explains electron orbits by stating that electrons can only exist in specific orbits with set energy levels. When an electron transitions between orbits, it emits or absorbs energy in the form of photons.
4. What are the limitations of Bohr's atomic model?
Ans. The limitations of Bohr's atomic model include its inability to fully explain the behavior of electrons in atoms with more than one electron, as well as its neglect of the wave nature of particles.
5. How does Bohr's atomic model contribute to our understanding of atomic structure?
Ans. Bohr's atomic model laid the foundation for further developments in quantum mechanics and atomic theory, providing a framework for understanding the behavior of electrons in atoms and the emission and absorption of light.
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