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High School/JEE/NEET/IPhO Physics | 17-19 Yrs

Atomic Structure
Bohrs-Atomic-Model-I-Postulate
Duration: 4.38 Min
 
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Bohrs-Atomic-Model-II-Postulate
Duration: 3.30 Min
 
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Bohrs-Atomic-Model-III-Postulate
Duration: 4.37 Min
 
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Radius-of-nth-Orbit-in-Bohr-Model
Duration: 2.58 Min
 
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Magnetic-Moment-of-nth-Orbit-in-Bohr-Model
Duration: 2.20 Min
 
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Rydberg-Scale-of-Energy
Duration: 3.32 Min
 
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Solved-Example-1
Module - 14 Solved Example-1
Duration: 1.35 Min
 
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Solved-Example-2
Module - 15 Solved Example-2
Duration: 2.11 Min
 
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Solved-Example-3
Module - 16 Solved Example-3
Duration: 2.39 Min
 
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Solved-Example-4
Module - 17 Solved Example-4
Duration: 1.53 Min
 
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Solved-Example-5
Module - 18 Solved Example-5
Duration: 2.26 Min
 
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Excitation-and-Ionization-of-an-Atom
Duration: 4.52 Min
 
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De-excitation-of-an-Excited-Atom
Duration: 5.18 Min
 
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Spectral-Lines-Emitted-by-H-Gas
Duration: 5.50 Min
 
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Energy-and-Wavelength-of-Emitted-Radiation
Duration: 4.19 Min
 
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The-Hydrogen-Spectrum
Duration: 5.03 Min
 
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Spectral-Series-of-Hydrogen-Atom
Duration: 11.17 Min
 
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Solved-Example-6
Module - 30 Solved Example-6
Duration: 2.04 Min
 
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Solved-Example-7
Module - 31 Solved Example-7
Duration: 2.45 Min
 
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Solved-Example-8
Module - 32 Solved Example-8
Duration: 2.20 Min
 
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Solved-Example-9
Module - 33 Solved Example-9
Duration: 3.58 Min
 
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Solved-Example-10
Duration: 4.48 Min
 
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Solved-Example-11
Duration: 3.34 Min
 
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Solved-Example-12
Duration: 2.47 Min
 
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Solved-Example-13
Duration: 3.05 Min
 
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Solved-Example-14
Duration: 3.42 Min
 
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Solved-Example-15
Duration: 5.00 Min
 
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Solved-Example-16
Duration: 2.38 Min
 
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Solved-Example-17
Duration: 2.31 Min
 
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Solved-Example-18
Duration: 3.38 Min
 
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  1.  
    2. sir i think we should write mu as (mass of e) (mass of nucleus of hydrogen)/( mass of hydrogen + mass of nucleus). why have you taken mass of hydrogen atom in place of mass of nucleus??????
    4 years ago by Swapnil Aggarwal

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  2.  
    3. Why should we consider mass of nucleus and take reduced mass and what happens if i don't do so ?
    9 years ago by Karthikesh
    Ans 1 ->
    If you don't consider the reduced mass... the result will be slightly different as in normal cases we take mass of electron m(e) in the expression and in actual it should be taken as mu(e) which is slightly less so result will vary...In this problem of calculation in difference of IP, if you don't take reduced mass your answer will be zero as the difference is only due to this reason as charges on both nuclei are same...
    9 years ago by Physics Galaxy

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