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NPTEL: Experimental Physics - II

Lecture 01 : Introduction

Lecture 02 : Summary of Experimental Physics - I

Lecture 03 : Summary of Experimental Physics - I (Contd.)

Lecture 04 : Summary of Experimental Physics - I (Contd.)

Lecture 05 : Summary of Experimental Physics - I (Contd.)

Lecture 06 : Basic analysis

Lecture 07 : Basic analysis (Contd.)

Lecture 08 : Basic components

Lecture 09 : Basic components (Contd.)

Lecture 10 : Basic components (Contd.)

Lecture 11 : Basic idea on mirros and lenses and their applications

Lecture 12 : Determination of focal length of concave mirror

Lecture 13 : Determination of focal length of concave mirror (Contd.)

Lecture 14 : Determination of focal length of convex mirror

Lecture 15 : Determination of focal length of convex lens

Lecture 16 : Determination of focal length of concave lens

Lecture 17 : Determination of focal length of convex lens by diplacement method

Lecture 18 : Applications of mirrors and lenses

Lecture 19 : Determination of refractive index of liquid using travelling microscope

Lecture 20 : Basic discussion on spectrometer and prism

Lecture 21 : Basic discussion on spectrometer and prism (contd.)

Lecture 22 : Basic discussion on spectrometer and prism (contd.)

Lecture 23 : Schuster's method

Lecture 24

Lecture 25 : Determination of the angle of prism

Lecture 26

Lecture 27

Lecture 28

Lecture 29

Lecture 30

Lecture 31 : Interference phenomena

Lecture 32 : Interference phenomena (Contd.)

Lecture 33 : Interference phenomena (Contd.)

Lecture 34 : Bi-prism

Lecture 35 : Bi-prism (contd.)

Lecture 36 : Interference phenomena by Newton ring (Theory)

Lecture 37 : Interference phenomena by Newton ring (experiment)

Lecture 38 : Michelson interferometer (Theory)

Lecture 39 : Michelson interferometer (Experiment)

Lecture 40 : Theory of diffraction

Lecture 41 : Theory of diffraction (continue)

Lecture 42 : Theory of diffraction (continue)

Lecture 43 : Single slit diffraction

Lecture 44 : Double slit diffraction

Lecture 45 : Plane transmission grating

Lecture 46 : Plane transmission grating (contd.)

Lecture 47 : Theory of polarization

Lecture 48 : Theory of polarization (contd.)

Lecture 49 : Expt. for Verification of Malus law

Lecture 50 : Expt. for brewester

Lecture 51 : Expt. for Brewester angle

Lecture 52 : Expt. on e-ray & o-ray

Lecture 53 : Polarimeter

Lecture 54 : Zone-plate theory

Lecture 55 : Zone-plate experiment

Lecture 56 : Theory of photoelectric effect

Lecture 57 : Experiment on photoelectric effect

Lecture 58 : Thomson experiment to determine the specific charge of an electron (e/m)

Lecture 60 : Experiment on Rydberg constant

Lecture 59 : Frank-Hertz experiment

Lecture 61 : Experiment on Rydberg constant (contd.)

Description:

COURSE OUTLINE: Experimental Physics is a fundamental subject to learn by all undergraduate students of science and engineering. There is no books available on this subject, which will cover all the experiments discussed in this course. So the video course on Experimental Physics in teaching form will be easily understandable to students and NPTEL is the suitable platform to spread over the distant students not only the knowledge but also the evaluation of the knowledge providing the certificate. Of course, the online video course on Experimental Physics will definitely compensate the crisis of specialized teacher of this subject in many colleges in our country.

Experimental Physics - II

NPTEL

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#Science #Physics #Optics #Diffraction #Experimental Physics #Social Sciences #Political Science #Polarization #Optical Physics #Quantum Mechanics #Quantum Physics #Photoelectric Effect

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