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Energy Levels of Hydrogen Atom IIT JEE | All About Energy Levels Of A Hydrogen Atom

Energy Levels of Hydrogen Atom IIT JEE | All About Energy Levels Of A Hydrogen Atom

In accordance to Bohr’s atomis model,

Bohr’s atomis Model(a) The central part of the atom called nucleus, contains whole of positive charge and almost whole of the mass of atom. Electrons revolve round the nucleus in fixed circular orbits.

(b) Electrons are capable of revolving only in certain fixed orbits, called stationary orbits or permitted orbits. In such orbits they do not radiate any energy.

(c) While revolving in permitted orbit an electron possesses angular momentum ‘L’ (=mvr) which is an integral multiple of h/2Ï€.

(d) Electrons are capable of changing the orbits. On absorbing energy they move to a higher orbit while emission of energy takes place when electrons move to a lower orbit.

(e) All the laws of mechanics can be applied to electgron revolving in a stable orbit while they are not applicable to an electron in transition.

Hydrogen atom has atomic number ‘Z’ as one. It contains one electron revolving round the nucleus. The spectrum of H-atom studied by Lyman, Balmer, Paschen, Bracken and Pfund can now be explained on the basis of Bohr's Model. It is now clear that when an electron jumps from a higher energy state to a lower energy state, the radiation is emitted in form of photons. The radiation emitted in such a transition corresponds to the spectral line in the atomic spectra of H-atom.

As the transition of electron takes place from a higher orbit to a lower orbit, difference of energy is radiated in the form of radiation. The wavelength of the radiation depends upon the initial and final orbit within which the transition takes place. Accordoingly a number of series are emitted. Each series is composed of a umber of lines.

Lyman Series

When an electron jumps from any of the higher states to the ground state or 1st state (n = 1), the series of spectral lines emitted lies in ultra-violet region and are called as Lyman Series. 

Balmer Series

Balmer SeriesWhen an electron jumps from any of the higher states to the state with n = 2 (IInd state), the series of spectral lines emitted lies in visible region and are called as Balmer Series. 

Paschen Series

When an electron jumps from any of the higher states to the state with n = 3 (IIIrd state), the series of spectral lines emitted lies in near infra-red region and are called as Paschen Series.

Brackett Series

When an electron jumps from any of the higher states to the state with n = 4 (IVth state), the series of spectral lines emitted lies in far infra-red region and called as Brackett Series. 

Did You Know

  • Lyman series lies in ultraviolet region, Balmer series in visible region while Paschen, Brackett and P fund series lie in infrared region.
  • A line having longest wavelength, in a particular series, corresponds to the transition of electron from the nearest higher orbit.
  • Ionisation potential of particular orbital electron is the minimum accelerating potential to which if the electron is subjected.
  • Ionisation potential acquires just the required amount of energy to be displaced to the outermost orbit 


Question 1

The central part of the atom is called,

(a) electron      (b) nucleus

(c) proton         (d) neutron

Question 2

Balmer series lies in 

(a) visible region          (b) infrared region

(c) ultraviolet region     (d) none of the above

Question 3

P fund series lies in 

(a) ultraviolet region     (b) visible region

(c) infrared region        (d) none of the above

Question 4

Paschen series lies in

(a) visible region          (b) infrared region

(c) ultraviolet region     (d) none of the above