Whenever a photon is emitted by hydrogen...

Whenever a photon is emitted by hydrogen in balmer series it is followed by another in lyman series what wavelength does this latter photon correspond to?

Text Solution

Verified by Experts

The correct Answer is:

A, B

The second wave length is from Balmer to lyman i.e. from
`n=2` to `n=1`
`n_1=2`, `n_2 =1`
`1/lambda = R((1)/(n_1^2) - (1)/(n_2^2))
`1/lambda = 1.097 xx 10^7[1/4-1]`
`=-1.097 xx 3/4 xx 10^7`
`lambda = (4)/(1.097 xx 3) xx 10^-7`
`=1.215 xx 10^-7`
`=1215. xx 10^-9 = 122 nm`

Topper's Solved these Questions

BOHR'S MODEL AND PHYSICS OF THE ATOM
HC VERMA|Exercise Objective 2|6 Videos
ALTERNATING CURRENT
HC VERMA|Exercise Exercises|19 Videos
CAPACITORS
HC VERMA|Exercise Exercise|2 Videos

Similar Questions

Explore conceptually related problems

What is hydrogen spectral series?

Find the ratio of series limit wavelength of Balmer series to wavelength of first time line of paschen series.

The ratio of wavelength of the last line of Balmer series and the last line of Lyman series is ....

Which of the following lines represents the wavelength of the spectrum of Balmer series?

An electron collides with a fixed hydrogen atom in its ground state. Hydrogen atom gets excited and the colliding electron loses all its kinetic energy. Consequently the hydrogen atom may emits a photon corresponding to the largest wavelength of the Balmer series. The K.E. of colliding electron will be..

In terms of Rydberg constant R, the shortest wavelength in Balmer series of hydrogen atom spectrum will have wavelength

A photon collides with a stationary hydrogen atom in ground state inelastically. Energy of the colliding photon is 10.2 eV. After a time interval of the order of micro second another photon collides with same hydrogen atom inelastically with an energy of 15eV. What wil be observed by the detector? (a) 2 photons of energy 10.2 eV (b) 2 photons of energy 1.4 eV (c ) One photon of energy 10.2 eV and an electron of energy 1.4 eV (d) One photon of energy 10.2 eV and another photon of energy 1.4 eV

HC VERMA-BOHR'S MODEL AND PHYSICS OF THE ATOM-Exercises

Find the maximum calculate force can act on the electron due to the nu...
Text Solution
|
A hydrogen atom in a having a binding of 0.85eVmakes transition to a s...
Text Solution
|
Whenever a photon is emitted by hydrogen in balmer series it is follow...
Text Solution
|
A hydrogen atom in state n = 6 makes two successive transition and rea...
Text Solution
|
What is the energy of a hydrogen atom in the first excited state if th...
Text Solution
|
A hot gas emites radition of wavelength 46.0nm ,82.8nm and 103.5nm on...
Text Solution
|
A gas of hydrogen like ions is prepared in a particular excited state ...
Text Solution
|
Find the maximum angular speed of the electron of a hydrogen atoms in ...
Text Solution
|
A spectroscopic instrument can resolve two nearly wavelength lambda an...
Text Solution
|
Suppose in certine condition only those transition are allowed to hydr...
Text Solution
|
According to maxwell's theiory of electrodnamics, an electron going in...
Text Solution
|
The average kinetic energy of molecules in a gas at temperature T is 1...
Text Solution
|
Find the temperature at which the everage thermal kinetic energy is eq...
Text Solution
|
Avarage lifetime of a hydrogen atom excited to n =2 state 10^(-6)s fin...
Text Solution
|
calculate the magnetic dipolemoment corresponding to the motion of the...
Text Solution
|
Show that the ratio of the magnitic dipole moment to the angular mome...
Text Solution
|
A beam of light having wavelength distributed uniformly between 450 nm...
Text Solution
|
Radiation coming from transition n = 2 to n = 1 of hydrogen atoms fall...
Text Solution
|
A hydrogen atom in ground state obsebe a photon of ultraviolet raditio...
Text Solution
|
A parallel beam of light of wavelength 100 nm passes through a sample ...
Text Solution
|