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Neils Bohr was the first to explain quan...

Neils Bohr was the first to explain quantitatively the general features of hydrogen atom structure and its spectrum.
Calculate the wave number of radiation due to transition of an electron from fourth orbit to second orbit. (`R_(H) =109677 cm^(-1)`)

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Neils Bohr was the first to explain quantitatively the general features of hydrogen atom structure and its spectrum. a) Give the main postulates of Bohr's model.

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MAXIMUM PUBLICATION-STRUCTURE OF ATOM-EXERCISE
  1. Neils Bohr was the first to explain quantitatively the general feature...

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  2. Neils Bohr was the first to explain quantitatively the general feature...

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  3. Neils Bohr was the first to explain quantitatively the general feature...

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  4. During Rutherford alpha - ray experiment, it was observed that most of...

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  5. During Rutherford alpha - ray experiment, it was observed that most of...

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  6. During Rutherford alpha - ray experiment, it was observed that most of...

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  7. Based on his alpha -ray scattering experiment, Rutherford proposed th...

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  8. Based on his alpha -ray scattering experiment, Rutherford proposed th...

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  9. Based on his alpha -ray scattering experiment, Rutherford proposed th...

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  10. The electron in an atom are designed by a set of quantum numbers label...

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  11. The electron in an atom are designed by a set of quantum numbers label...

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  12. The results fo Rutherford's alpha -ray scattering experiment were qu...

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  13. The results fo Rutherford's alpha scattering experiment were quite u...

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  14. The photon has a momentum as well as a wavelength . Which property ...

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  15. The photon has a momentum as well as a wavelength . A photon has a ...

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  16. Heisenberg's uncertainty principle rules out the existence of definite...

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  17. Heisenberg's uncertainty principle rules out the existence of definite...

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  18. In order to specify the size energy, shape and orientation of orbitals...

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  19. In order to specify the size energy, shape and orientation of orbitals...

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  20. State the rules behind the electronic configuration in an atom.

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