KLE University M Pharm Syllabus

Hii sir, I Wants to get the Syllabus of the Mpharma Course of the UVVISUALSPECTROSCOPY Subject of the KLE University ?

[pawan]

As you Asking for the Syllabus of the Mpharma Course of the UVVISUALSPECTROSCOPY Subject of the KLE University the Syllabus is As Follows

1.UV-VISUALSPECTROSCOPY

Brief review of electromagnetic spectrum, UV
Visual range, energy, wavelength and color relationships. Interaction of
electromagnetic radiation with matter and its effects. Chromophores and their
interaction with E.M.R. Absorption spectra of organic compounds and complexes
illustrating the phenomenon and its utilization in qualitative and quantitative studies
of drugs, shifts and their interpretation (including solvent effects). Empirical
correlation of structure with absorption phenomena (Woodward's rules etc),
quantitative estimations.

Modern instrumentation of single ,double and split beam U-V spectrophotometer.

INFRARED SPECTROSCOPY: Nature of Infra-red radiation, Interaction of
I.R. radiation with organic molecules and effects on bonds, Molecular Infrared
spectra, Brief outline of classical I.R. instrumentation and particle details of
obtaining spectra, Including sample preparation for spectroscopy, qualitative
interpretation of I.R. spectroscopy including FT-IR.

OPTICAL ROTATORY DISPERSION: Fundamental principles of ORD.
Cotton effect curves- their characteristics and interpretation, Octant rule and its
application with examples, Circular dichroism and its relation to ORD

NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY: Fundamental
principles of NMR (Magnetic properties of nuclei; applied field and precession;
absorption and transition; frequency). Chemical shifts concept: Isotopic nuclei,
Reference standards: Proton Magnetic spectra, their characteristics, presentation
terms used in describing spectra and their interpretation (Signal No., Position,
Intensity). Brief outline of instrumental arrangements and some practical details.
Signal multiplicity phenomenon in high resolution PMR, Spin-spin coupling.
Application of Signal Split and coupling constant data for interpretation of spectra.
De-coupling and shift reagent methods. Brief outline of principles of FT-NMR with
reference to

CNMR: Spin-spin and spin-lattice relaxation phenomenon. Free
induction decay (FID) proton noise de-coupling signal, average time domain and
frequency domain,signals, nuclear overhauser enhancement,

C NMR spectra-
their presentation, characteristics, interpretation, examples and applications. Brief
indication for application of magnetic resonance spectral data of other nuclei by
modem NMR instruments, Introduction to 2-D NMR techniques.


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Contact details :
KLE University
Address: Nehru Nagar, Belagavi, Karnataka 590010
Phone: 0831 249 3781