The radius of the orbit of an electron i...

The radius of the orbit of an electron in a Hydrogen-like atom is `4.5 a_(0)`, where `a_(0)` is the Bohr radius. Its orbital angular momemtum is `(3h)/(2pi)`. It is given that `h` is Plank constant and `R` si Rydberg constant. The possible wavelength `(s)`, when the atom-de-excites. is (are):

`(9)/(32R)`

`(9)/(16R)`

`(9)/(5R)`

`(4)/(3R)`

Text Solution

Verified by Experts

The correct Answer is:

A, C

Angular momentum `=(nh)/(2pi)=(3h)/(2pi)implies n=3`
Also `r=n^(2)/2 a_(0) implies (9a_(0))/2=3^(2)/Z a_(0) implies Z=2`
For de-excitation
`1/lambda=Rz^(2) [1/n_(1)^(2)-1/n_(2)^(2)]=4R[1/n_(1)^(2)-1/n_(2)^(2)]`
For `n=3` to `n=1` :
`1/lambda=4R[1/1-1/9] implies lambda=9/(32R)`
For `n=3` to `n=2`:
`1/lambda=4R[1/4-1/9]implies lambda=9/(5R)`
For `n=2` to `n=1` :
`1/lambda=4R[1/1-1/4]implies lambda=3/R`

Topper's Solved these Questions

SIMPLE HARMONIC MOTION
ALLEN|Exercise Comprehension #1|3 Videos
SIMPLE HARMONIC MOTION
ALLEN|Exercise Comprehension #2|3 Videos
SIMPLE HARMONIC MOTION
ALLEN|Exercise Exercise-05(B)|46 Videos
RACE
ALLEN|Exercise Basic Maths (Wave Motion & Dopplers Effect) (Stationary waves & doppler effect, beats)|25 Videos
TEST PAPER
ALLEN|Exercise PHYSICS|4 Videos

Similar Questions

Explore conceptually related problems

The radius of the orbit of an electron in a Hydrogen - like atom is 4.5s_(0) where s_(0) is the bohr radius its orbital angular momentum is (3b)/(2 pi) it is given that is is plank constant and R is rabdery constant .The possible wavelength (s) , when the atom de- exciter , is (are)

The velocity of electrons in the 3rd excited state of a hydrogen atom is [ a_(0) is Bohr radius ]:

The radius of the smallest orbit of the electron( aO) in hydrogen atom is 0.053 nm. What is the radius of the 4th orbit of the electron in hydrogen atom.

The kinetic energy of an electron in the second Bohr orbit of a hydrogen atom is [ a_(0) is Bohr radius] :

The radius of the first (lowest) orbit of the hydrogen atom is a_(0) . The radius of the second (next higher) orbit will be

The radius of the second orbit of an electron in hydrogen atom is 2.116A . The de Broglie wavelength associated with this electron in this orbit would be

The radius of the first Bohr orbit of hydrogen atom is 0.529Å . The radius of the third orbit of H will be:

de-Broglie wavelength of electron in 2^("nd") excited state of hydrogen atom is: [where r_(0) is the radius of 1^("st") orbit in H-atom]

ALLEN-SIMPLE HARMONIC MOTION-MCQ s

Let m(p) be the mass of a poton , M(1) the mass of a (10)^(20) Ne nucl...
Text Solution
|
The electron in a hydrogen atom makes a transition n(1) rarr n(2), whe...
Text Solution
|
The graph between the stopping potential (V(0)) and ((1)/(lambda)) is...
Text Solution
|
Assume that the nuclear binding energy per uncleon (B//A) versus mass ...
Text Solution
|
The radius of the orbit of an electron in a Hydrogen-like atom is 4.5 ...
Text Solution
|
For photo - electric effect with incident photon wavelength lambda the...
Text Solution
|
A fission reaction is given by .(92)^(236)U rarr .(54)^(140)Xe + .(54)...
Text Solution
|
Highly excited state for hydrogen - like atom (also called rydberg sta...
Text Solution
|