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assuming bohr...

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assuming bohr model for Li++ atom the first excitation energy of ground state of Li++ atom is

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Q. Assuming Bohr's model for

L i^{+ +}

atom, the first excitatio energy of ground state of

L i^{+ +}

In a mixture of

H - H e^{+}

gas, H atom and

H e^{+}

ions are excited to their respective first excited states. Subsequently, H atoms transfer its excitation energy to

H e^{+}

ions by collision.

If each hydrogen atom in the ground state is excited by absorbing photons of energy 8.4 eV, 12.09 eV, of energy, then assuming the Bohr model of an atom is applicable the number of spectral lines emitted is equal to:

Q. Ionisation energy for hydrogen atom in the ground state is E. What is the ionisation energy of

L i^{+ +}

2^{n d}

Q. As per bohr model, the minimum energy (in eV) required to remove an electron from the ground state of double ionized Li atom(Z=3) is:

Q. In a mixture of H -

H e^{+}

H e^{+}

is singly ionized He atom). H atoms and

H e^{+}

ions are excited to their respective first excited states. Subsequently, H atoms transfer their total excitation energy to

H e^{+}

ions (by collisions ). Assume that the Bohr model of is atom exactly valid.

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