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Question
In the Bohr model of the hydrogen atom, radiation is emitted when the electron?
In the Bohr model of the hydrogen atom, radiation is emitted when the electron?
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Solution
Bohr's Model of a Hydrogen Atom:
- Bohr Model of the hydrogen atom was first proposed as the planetary model, and later an assumption concerning the electrons was made.
- The assumption was based on the quantization of the structure of atoms.
- Bohr’s model of the hydrogen atom is generally based on three postulates, which can be given as:
- An electron moves around the nucleus in a fixed circular orbit.
- An electron’s angular momentum in the orbit is said to be quantized.
- The change in an electron’s energy when it makes a quantum jump from one orbit to another is always known to be accompanied by the emission or absorption of a photon.
Emission of radiation:
- According to the Bohr model of the hydrogen atom, radiation is only emitted when an electron jumps from a higher energy state to a lower energy state.
- According to the model, the electron being in its stable stationary orbital does not emit or absorb any energy.
- Only when an electron gets energy equal to its energy gap between the transition orbits, does it get excited and jumps to the higher state.
- But as it is unstable at the higher energy level, hence it emits the radiation and jumps back to its lower state.
- The energy of the emitted photon is always said to be equal to the difference in energy between the two energy levels for a specific transition, which is given as:
( where planks constant and frequency of the photon emission)
Hence, In the Bohr model of the hydrogen atom, radiation is emitted when the electron jumps back from a higher to lower energy state.
Bohr's Model of a Hydrogen Atom:
- Bohr Model of the hydrogen atom was first proposed as the planetary model, and later an assumption concerning the electrons was made.
- The assumption was based on the quantization of the structure of atoms.
- Bohr’s model of the hydrogen atom is generally based on three postulates, which can be given as:
- An electron moves around the nucleus in a fixed circular orbit.
- An electron’s angular momentum in the orbit is said to be quantized.
- The change in an electron’s energy when it makes a quantum jump from one orbit to another is always known to be accompanied by the emission or absorption of a photon.
Emission of radiation:
- According to the Bohr model of the hydrogen atom, radiation is only emitted when an electron jumps from a higher energy state to a lower energy state.
- According to the model, the electron being in its stable stationary orbital does not emit or absorb any energy.
- Only when an electron gets energy equal to its energy gap between the transition orbits, does it get excited and jumps to the higher state.
- But as it is unstable at the higher energy level, hence it emits the radiation and jumps back to its lower state.
- The energy of the emitted photon is always said to be equal to the difference in energy between the two energy levels for a specific transition, which is given as:
( where planks constant and frequency of the photon emission)
Hence, In the Bohr model of the hydrogen atom, radiation is emitted when the electron jumps back from a higher to lower energy state.
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