The energy of the second Bohr orbit of h...

The energy of the second Bohr orbit of hydrogen atom is `-3.41 eV`. The energy of the second orbit of `He^(+)` would be

A

`-0.85eV`

B

`-13.6 eV`

C

`-1.70 eV`

D

`-6.82 eV`

Text Solution

Verified by Experts

The correct Answer is:

B

`(E_1)/(E_2) = (Z_1^2)/(Z_2^2)`

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Knowledge Check

The energy of the second Bohr orbit in the hydrogen atom is -3.41eV . The energy of the second Bohr orbit of He^(+) ion would be

A

`-0.85eV`

B

`-13.64eV`

C

`-1.70eV`

D

`-6.82`

The energy of the second Bohr orbit of the hydrogen atom is -3.41 eV. The energy of the third Bohr orbit of the He ion will be

A

`-30.69` eV

B

`-13.64` eV

C

`-7.67` eV

D

`-6.06` eV

The radius of second Bohr’s orbit of Hydrogen atom is:

A

0.053 nm

B

`(0.053)/(4)nm`

C

`0.053 xx4nm`

D

`0.053 xx20nm`

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