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If the ionoza...

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If the ionozation potential of the hydrogen atom is 13.6ev, then what will be the longest wavelength needed to remove an electron from the 1st bohr orbit of He+ ion

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Q. According to Bohr theory, the electronic energy of the hydrogen atom in the

n

th Bohr orbit is given by

E_{n} = - \frac{21.76 \times 10^{- 19}}{n^{2}} J

Calculate the longest wavelength of light that will be needed to remove an electron from the

3

rd orbit of the

{H e}^{+}

Q. The ionisation potential of hydrogen atom is

13.6 e V

. The energy required to remove an electron from the second orbit of hydrogen will be

Q. According to Bohr's theory, the energy of an electron in the

n^{t h}

energy level of hydrogen like species is given by:

E_{n} = \frac{- 21.76 \times 10^{- 19}}{n^{2}} (Z^{2}) J

Calculate the longest wavelength of light that will be needed to completely remove an electron from the third Bohr orbit of

H e^{+}

Q. According to Bohr's theory, the energy of an electron in the

n^{t h}

energy level of hydrogen like species is given by:

E_{n} = \frac{- 21.76 \times 10^{- 19}}{n^{2}} (Z^{2}) J

Calculate the longest wavelength of light that will be needed to completely remove an electron from the third Bohr orbit of

H e^{+}

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