show diagrammatically different lines of hydrogen emission spectrum
Answers
Answer:
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.
λ
1
=R(
1
2
1
−
n
2
1
)
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.
λ
1
=R(
2
2
1
−
n
2
1
)
Where, n=3,4
This is further divided into sublevels as α−Balmerfor n=3and so on.
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Physics
Atoms
Bohr's Model
Draw a neat labelled energy...
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Asked on December 26, 2019 by
Althaf Kapane
Draw a neat labelled energy level diagram and explain the different series of spectral lines for hydrogen atom.
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ANSWER
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.
λ
1
=R(
1
2
1
−
n
2
1
)
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.
λ
1
=R(
2
2
1
−
n
2
1
)
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.
λ
1
=R(
3
2
1
−
n
2
1
)
Where n=4,5,6
4. Brackett Series (infrared)
In this series the transition occur from n>4 to the second orbit that isn=4. This represents the Bracket Series of the Hydrogen atom.
It is mainly observed in the Infrared region of the EM wave.
λ
1
=R(
4
2
1
−
n
2
1
)
Where n=5,6,
5. Pfund Series (infrared)
In this series the transition occur fromn>5to the second orbit that isn=5. This represents the Bracket Series of the Hydrogen atom.
It is mainly observed in the Infrared region of the EM wave.
λ
1
=R(
5
2
1
−
n
2
1
)
Where n=6,7
solution