The third line of the Balmer series, in ...

The third line of the Balmer series, in the emission spectrum of the hydrogen atom, is due to the transition from the

A

fourth Bohr orbit to the first Bohr orbit

B

fifth Bohr orbit to the second Bohr orbit

C

sixth Bohr orbit to the third Bohr orbit

D

seventh Bohr orbit to the third Bohr orbit

Text Solution

Verified by Experts

The correct Answer is:

B

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When is H, line of the Balmer series in the emission spectrum of hydrogen atom obtained ?

The line at 434nm in the Balmer series of the hydrogen spectrum corresponds to a transition of an electron from the n^(th) to second Bohr orbit. What is the value of n?

Knowledge Check

Balmer series of hydrogen line emission spectrum lies in

A

visible region

B

infrared region

C

ultraviolet region

D

X ray region

How many spectral series appear in the emission spectrum of atomic hydrogen?

A

six

B

four

C

five

D

seven

The third line of the Balmer series spectrum of a hydrogen-like ion of atomic number Z equals to 108.5 nm . The binding energy of the electron in the ground state of these ions is E_(n) . Then

A

`Z = 2`

B

`E_(B) = 54.4 eV`

C

`Z = 3`

D

`E_(B) = 122.4 eV`

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