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Bohr's theory can also be applied to the...

Bohr's theory can also be applied to the ions like

A

`He^(+)`

B

`Li^(2+)`

C

`Be^(3+)`

D

all of these.

Text Solution

Verified by Experts

The correct Answer is:
D
Bohr's atomic theory is applicable to hydrogen and monoatomic ions like `He^(+), Li^(2+), Be^(3+)`, etc.
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Bohr's theory can be applied to the hydrogen-like species (He^(+), Li^(2+),Be^(3+) , and so on). With the increase of Z (atomic number), the value of enegry becomes_____and that of radius becomes________.

Consider the following statements (I) Bohr's theory can also be used to explain the spectra of He^(+) ion (II) Energy of an electron in the first Bohr orbit of hydrogen atom is -13.6eV (III) Bohr's theory is only applicable to hydrogen atom and not to any other species (IV) The energy of an electron in a hydrogen atom is quantised The correct statements are

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NCERT FINGERTIPS-STRUCTURE OF ATOM -Bohr'S Model For Hydrogen Atom
  1. An electron in excited hydrogen atom falls from fifth energy level to ...

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  2. The third line of the Balmer series, in the emission spectrum of the h...

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  3. The frequency of radiation absorbed or emitted when transition occurs ...

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  4. The angular momentum of an electron in a given stationary state can be...

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  5. According to Bohr's theory the angular momentum of an electron in 5th ...

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  6. The radius of the stationary state which is also called Bohr radius is...

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  7. If the radius of first Bohr orbit be a0, then the radius of the third ...

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  8. What does the negative electronic energy (negative sign for all values...

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  9. The energy of the electron in a hydrogen atom has a negative sign for ...

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  10. If the ionization energy for the hydrogen atom is 13.6 eV , the energy...

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  11. Bohr's theory can also be applied to the ions like

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  12. According to Bohr's theory, the electronic energy of H-atom in Bohr's ...

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  13. The Bohr's energy of a stationary state of hydrogen atom is given as E...

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  14. Which of the following is not correctly matched?

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  15. What is the trend of energy of Bohr's orbits?

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  16. The radus of hydrogen atom in the ground state 0.53 Å. The radius of L...

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  17. Calculate the velocity of an electron in the first Bohr orbit of a ...

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  18. Time taken by an electrons to complete one revolution in the Bohr orbi...

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  19. Which one is not in agreement with Bohr's model of the atom?

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  20. The splitting of line into groups under the effect of electric field i...

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