state the drawbacks of rutherford's model of the atom? explain the suggestions put forward by neil bohr in his model of a atom to overcome these drawbacks.
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Drawbacks of Rutherford’s model of the atom
The orbital revolution of the electron is not expected to be stable. Any particle in a circular orbit would undergo acceleration. During acceleration, charged particles would radiate energy. Thus, the revolving electron would lose energy and finally fall into the nucleus. If this were so, the atom should be highly unstable and hence matter would not exist in the form that we know. We know that atoms are quite stable.
Bohr improved Rutherford’s atomic model by proposing that electrons travelled in circular orbits with specific energy levels.
Explanation:
Rutherford proposed that electrons circled the nucleus like planets around the sun.
However, his model could not explain atomic line spectra — why metals or their compounds give off characteristic colours when heated.
Bohr improved Rutherford's model by proposing that electrons travelled about the nucleus in orbits that had specific energy levels.
They could jump from one level to another but could not be at any place in between, and they would absorb or emit specific amounts of energy (quanta) when they jumped between levels.
Bohr’s model was an improvement because it explained why the light emitted by atoms consists of lines of certain colours.
When a metal atom is heated, it absorbs energy and the electrons jump to higher energy levels.
When the electrons return to lower levels, they emit this energy in packets of specific energies.
Some of these energies correspond to the colours that we see in the spectra. Others are at energies that our eyes cannot detect.
The orbital revolution of the electron is not expected to be stable. Any particle in a circular orbit would undergo acceleration. During acceleration, charged particles would radiate energy. Thus, the revolving electron would lose energy and finally fall into the nucleus. If this were so, the atom should be highly unstable and hence matter would not exist in the form that we know. We know that atoms are quite stable.
Bohr improved Rutherford’s atomic model by proposing that electrons travelled in circular orbits with specific energy levels.
Explanation:
Rutherford proposed that electrons circled the nucleus like planets around the sun.
However, his model could not explain atomic line spectra — why metals or their compounds give off characteristic colours when heated.
Bohr improved Rutherford's model by proposing that electrons travelled about the nucleus in orbits that had specific energy levels.
They could jump from one level to another but could not be at any place in between, and they would absorb or emit specific amounts of energy (quanta) when they jumped between levels.
Bohr’s model was an improvement because it explained why the light emitted by atoms consists of lines of certain colours.
When a metal atom is heated, it absorbs energy and the electrons jump to higher energy levels.
When the electrons return to lower levels, they emit this energy in packets of specific energies.
Some of these energies correspond to the colours that we see in the spectra. Others are at energies that our eyes cannot detect.
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darwback of Rutherford model of the atom is doing not tell anything about stability of the atom.......
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