Draw energy level diagram showing emimion of various spectral series in hydrogen
Answers
The energy level diagram of the hydrogen atom is shown in the figure above depicting different series line.
There are four series namely
1. Lyman Series (U.V.)
2 Blamer Series (visible)
3. Psachen Series (infrared)
4. Brackett Series (infrared)
5. Pfund Series (infrared)
n=principle quantum number whose values ranges from 1−∞
n=1represents the ground energy level
n=∞is the highest energy level.
1. Lyman Series (U.V.)
In this series the transition occur from n>1 to the first orbit that isn=1. This represents the Lyman Series of the Hydrogen atom.
It is mainly observed in the ultraviolet region of the EM wave.
λ1=R(121−n21)
Wheren=2,3
This is further divided into sublevels as α−lymanfor n=2 and so on.
2 Blamer Series (visible)
In this series the transition occur from n>2to the second orbit that isn=2. This represents the Balmer Series of the Hydrogen atom.
It is mainly observed in the Visible region of the EM wave.
λ1=R(221−n21)
Where, n=3,4
This is further divided into sublevels as α−Balmerfor n=3and so on.
3. Psachen Series (infrared)
In this series the transition occur from n>3 to the second orbit that isn=3. This represents the Paschen Series of the Hydrogen atom.
It is mainly observed in the Infrared region of the EM wave.
λ1=R(321−n21)
Where n
The energy level diagram of the hydrogen atom is shown in the figure above depicting different series line.
✦Lyman Series (U.V.)
✦ Blamer Series (visible)
✦ Psachen Series (infrared)
✦ Brackett Series (infrared)
✦ Pfund Series (infrared)
n= principle quantum number whose values qranges from 1−∞
n=1 represents the ground energy level
n=∞ is the highest energy level.
In this series the transition occur from n>1 to the first orbit that isn=1. This represents the Lyman Series of the Hydrogen atom.
It is mainly observed in the ultraviolet region of the EM wave.
