10. Collect  data  and  revise  the  experimental  procedure  iteratively,  reflectively,
                       andresponsively.
                   11. Evaluate the process and outcomes of an experiment quantitatively and qualitatively
                   12. Extend the scope of an investigation whether or not results come out as expected
                   13. Conduct an experiment collaboratively and ethically
                   14. Various  experimental  and  computational  tools  thereby  developing  analytical  abilities
                       toaddress real world problems.
                   15. Seminars/presentations related to practical courses.


               PRACTICALS(120 Hours)

               UNIT 1                                                                             (30 Hours)
                   1.  Ionization potential by Franck Hertz experiment.
                   2.  Photoelectric effect.
                   3.  Determination of Planck‘s constant.
                   4.  Bandgap of a semiconductor by Four Probe method.
                   5.  Wavelength measurement of laser using a diffraction grating.
                   6.  Michelson interferometer.
                   7.  Dual nature of electron experiment.
                   8.  Millikan oil-drop experiment
                   9.  Stefan‘s law.
                   10. Zeeman effect experiment.
                   11. Fabry- Perot Interferometer.
                   12. To measure the dislocation density of a crystal by etching.
                   13.  Study of X-ray diffraction from liquid, amorphous materials.
                   14. Determination of dislocation density by Reflection X-ray topography.
                   15. To take Buerger Precession photograph of a crystal and index the reflections.
                   16. To  measure  the  superconductivity  transition  temperature  and  transition  width  of  high
                       temperature superconductors.
                   17. To determine the optical constants of a metal by reflection of light.
                   18. Model evaluation of dispersion curves of one-dimensional lattice.

               UNIT 2                                                                             (50 Hours)
                   1.  Power supplies: Bridge rectifier switch capacitive input filters.
                   2.  Power supplies: Shunt Voltage regulator using Zener diode.
                   3.  Clipping and Clamping along with CRO.
                   4.  Common Emitter Amplifier with and without feedback.
                   5.  Determination  of  h-parameters  in  the  CE  configuration  using  the  measured  input  and
                       output characteristics of a BJT.
                   6.  Common Source and Common Drain Amplifiers using JFET.
                   7.  RC  Oscillators:Phase  shift  oscillator  using  RC  ladder  network  as  the  phase  shifting
                       network.
                   8.  Wien‘s Bridge Oscillator.
                   9.  Colpitts Oscillators.
                   10. Hartley Oscillators.
                   11. Emitter Coupled Differential Amplifier using BJT‘s.
                   12. Multivibrators–Bistable, Monostable and Free Running multivibrators
                   13. Pulse Amplitude Modulation/Demodulation
                   14. Pulse position/Pulse Width Modulation/Demodulation
                   15. FSK Modulation Demodulation using Timer/PLL
                   16. Microwave characterization and Measurement
                   17. PLL Circuits and applications



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