Molecular spectroscopy | Lec-31| Combination Bands & Fermi Resonance | CSIR-NET/JRF | GATE | скачать в хорошем качестве

Molecular spectroscopy | Lec-31| Combination Bands & Fermi Resonance | CSIR-NET/JRF | GATE |

🍭Share this Video:    • Molecular spectroscopy | Lec-31| Combinati...   In this video, we will discuss the concept of combination bands and Fermi resonance. Fermi resonance is an interesting concept where two bands shared their intensities. This topic is very helpful for CSIR NET/JRF and GATE so do watch it carefully and let me know in the comment section that how do you like the video? ------------------------------------------------------------------------------------ Welcome to RJ Academy where we targeting CSIR NET/JRF (CHEMICAL SCIENCE), GATE, IIT-JAM, and other entrance exams related to chemistry. This is an open courseware program where anyone can watch the complete lecture series for free. Your support is highly appreciated. If you want to support us, you can contribute your contribution so that RJ Academy will continue to provide high-quality educational resources for free. You can contribute through Paytm, Google Pay, or Phonepay. Paytm number = 9053519385 Google Pay = 9053519385 PhonePay = 9053519385 --------------------------------------------------------------------------------------------------------------- We had discussed the official syllabus of the CSIR NET/JRF exam and discussed how exactly we will cover molecular spectroscopy on the youtube channel of RJ academy. we already studied the fundamental requirements to interpret molecular spectra. 3 basic conditions have to be satisfied while studying spectra which are: 1.) Bohr frequency condition 2.) Selection rule 3.) Population ratio While studying rotational spectroscopy, we must know the elementary idea of the Moment of Inertia. So, we have learned that how can we calculate the moment of inertia for diatomic, linear triatomic molecule, tetrahedral, and octahedral molecules. Till now, we learned that how can we classy the molecule based on its symmetry. There are 4 types of Rotor molecules: 1.) Spherical Top molecule 2.) Asymmetric rotor molecule 3.) Symmetric rotor molecule 4.) Linear rotor molecule. Based on the above classification and knowledge of Moment of inertia, we have studied the Bohr frequency condition, Selection rule, and Population Ratio for Rotational Spectroscopy. Then we started the Vibrational spectroscopy and we studied the vibrational spectroscopy for both harmonic and anharmonic motions. We also studied that how can we calculate the Dissociation energy of a Diatomic molecule from Vibration spectra. Then we started studying the mixture of Rotational and Vibrational spectroscopy known as Ro-Vibrational Spectroscopy or Ro-vibration Spectra. We derived the energy expression for the R and P branches in Ro-vibrational Spectra. Also, we have studied the Ro-Vibrational spectroscopy when the interactions between Rotational energy levels and Vibrational energy levels are taken into account. And we had seen the effect on the R and P branches in Ro-Vibrational Spectra due to Rotation-Vibration coupling. Then we started a new Spectroscopy which is Raman spectroscopy and in the last lecture we discuss the basics of Raman Spectroscopy and also some other theories which were used by C.V. Raman to give its Nobel Prize-Winning theory that are: 1) Smekel Prediction 2) Rayleigh Experiment 3) Compton Experiment 4) Photoelectric Effect Then we classified the Raman spectroscopy as: 1) Rotation Raman Spectroscopy 2) Vibration Raman Spectroscopy We have discussed the selection rule for Rotation Raman spectroscopy and Bohr frequency condition in the previous lectures and we have studied about Stokes and Anti-stokes line in the Rotation Raman Spectra and we discussed the Line missing case in the cases of some diatomic molecules. And after that we have studied the Electronic spectroscopy and then discussed Birge sponer plot. Download notes: TRY TO MAKE YOUR OWN NOTES FROM THE VIDEO. --------------------------------------------------------------------------------------------------------- #CSIRNET #GATE #IITJAM #IITJEE #JEEAdvanced #NEET #DailyFreeLiveClasses -------------------------------------- ------------------------------------ Thanks for watching Do Subscribe, like, and comment DISCLAIMER: Copyright Disclaimer Under Section 107 of the Copyright Act 1976, the allowance was made for "fair use" for purposes such as criticism, comment, news reporting, teaching, scholarship, and research. Fair use is a copyright law that may otherwise be infringing. Non-profit, educational, or personal use tips