V. PRACTICAL

List of Experiments Year

2012 - 2013 Practicals:  Op - Amp AstableMultivibrator  Study of characteristics of photodiode (solar )  Determination of efficiency of solar cells  8085 ALP for BCD to Binary conversion Demonstrations:  Determination of resistivity for different materials by four probe method  Determination of Curie temperature of ferrites 2013-2014 Practicals:  Op Amp AstableMultivibrator  Study of characteristics of photodiode (solar cell)  Determination of efficiency of solar cells  Characteristics of Laser diodes  8085 ALP for finding the Ascending and Descending order Demonstrations:  Determination of resistivity for different materials by four probe method  Determination of Curie temperature of ferrites  Demonstration of 2014 - 2015 Practicals:  Op Amp AstableMultivibrator  Study of characteristics of photodiode (solar cell)  Determination of efficiency of solar cells  Characteristics of Laser diodes  Qualitative and Quantitative study of , carbohydrates, and heavy metal (Interdepartmental with Chemistry)  8085 ALP for finding the Ascending and Descending order

Demonstrations:  Determination of resistivity for different materials by four probe method  Demonstration of interfacing of LED using microprocessor  Determination of Curie temperature of ferrites 2015 - 2016 Practicals:  Op Amp AstableMultivibrator  Study of characteristics of photodiode (solar cell)  Determination of efficiency of solar cells  Characteristics of Laser diodes  Qualitative and Quantitative study of chlorophyll, carbohydrates, proteins and heavy metal ions (Interdepartmental with Botany)  8085 ALP for finding the Ascending and Descending order Demonstrations:  Determination of resistivity for different materials by four probe method  Demonstration of regulated power supply using OP-Amp  Determination of Curie temperature of ferrites

2016 -2017 Practicals  Single stage RC Coupled amplifier  Hartley Oscillator  Determination of efficiency of solar cells  Isolation of chlorophyll pigments by paper (Interdepartmental with Botany)  Measurement of pH for alkaline solutions (Interdepartmental with Chemistry) Demonstrations:

 Determination of resistivity for different materials by four probe method

 Determination of Magnetic susceptibility of liquids by Quincke’s method

 Determination of Curie temperature of ferrites

2017 - 2018 Core Physics Practical – I: I B.Sc Physics  Determination of Spring Constant of different metals  Determination of frequency of tuning fork using Melde’s apparatus  Experimental determination of Planck’s constant Core Physics Practical – II: II B.Sc Physics  Measurement of dielectric constant  Determination of Band Gap using Thermistor  Verification of Ohm’s law by Joule’s Calorimeter  Measurement of Resistance using Carey Foster’s Bridge Core Physics Practical – III: III B.Sc Physics  Determination of Cauchy’s constants using Spectrometer  RC Coupled Amplifier - single stage  Op -Amp - Differentiator and Integrator Demonstration:  Magnetic Hysteresis Loop Tracer  Hall effect 2018-2019 Core Physics Practical – I: I B.Sc Physics  Determination of Spring Constant of different metals  Determination of frequency of tuning fork using Melde’s apparatus  Experimental determination of Planck’s constant Core Physics Practical – II: II B.Sc Physics  Measurement of dielectric constant  Determination of Band Gap using Thermistor  Verification of Ohm’s law by Joule’s Calorimeter  Measurement of Resistance using Carey Foster’s Bridge Core Physics Practical – III: III B.Sc Physics  Determination of Cauchy’s constants using Spectrometer  RC Coupled Amplifier - single stage  Op -Amp - Differentiator and Integrator Demonstration:  Magnetic Hysteresis Loop Tracer  Hall effect 2019 - 2020 Core Physics Practical – I: I B.Sc Physics  Determination of Spring Constant of different metals  Determination of frequency of tuning fork using Melde’s apparatus  Experimental determination of Planck’s constant Core Physics Practical – II: II B.Sc Physics  Measurement of dielectric constant  Determination of Band Gap using Thermistor  Verification of Ohm’s law by Joule’s Calorimeter  Measurement of Resistance using Carey Foster’s Bridge Core Physics Practical – IV: III B.Sc Physics  Series Resonance Circuit  Parallel Resonance Circuit  Thevenin’s Theorem  Norton’s Theorem  High/ Low/ Band Pass filter  Obtain the energy of various namely H, O and N in their neutral, cationic and anionic states  Obtain the energy of diatomic molecules such as H2, O2 and NaCl by varying their interatomic distances Demonstration:  Hall effect  Magnetic Hysteresis Loop Tracer