|
Supply And Installation Of Equipment For Department Of Physics , Physics , Set Up To Determine G And Velocity For A Freely Falling Body Using Digital Timing Technique , Set Up To Determine The Valueof G Using Bar Pendulum , Set Up To Compare Capacitances Using De’Sauty’S Bridge , Set Up To Verify The Superposition, And Maximum Power Transfer Theorems , Set Up To Study Response Curve Of A Series Lcr Circuit And Determine Its ( A ) Resonant Frequency, ( B ) Impedance At Resonance, ( C ) Quality Factor Q, And ( D ) Band Width , Set Up To Study The Response Curve Of A Parallel Lcr Circuit And Determine Its ( A ) Anti-Resonant Frequency And ( B ) Quality Factor Q , Set Up To Determine Stefan’S Constant Using Thermocouple , Set Up To Calibrate A Thermocouple To Measure Temperature In A Specified Range Using ( I ) Null Method, ( Ii ) Direct Measurement Using Op-Amp Difference Amplifier And To Determine Neutral Temperature , Set Up To Determine The Excitation Potential Of Mercury / Argon By Franck-Hertz Experiment , Set Up To Study Photo-Electric Effect: Photo Current Versus Intensity And Wavelength Of Light; Maximum Energy Of Photo-Electrons Versus Frequency Of Light , Set Up To Determine The Absorption Lines In The Rotational Spectrum Of Iodine Vapour , Set Up To Study Of V-I & Power Curves Of Solar Cells, And Find Maximum Power Point & Efficiency. , Set Up To Study The Characteristics Of A Bipolar Junction Transistor In Ce Configuration , Set Up To Investigate The Use Of An Op-Amp As An Integrator / Differentiator , Set Up To Measure The Dielectric Constant Of A Dielectric Materials With Variation Of Frequency , Set Up To Measure The Resistivity Of A Semiconductor ( Ge ) With Temperature By Four-Probe Method ( Room Temperature To 150 0C ) And To Determine Its Band Gap , Set Up To Determine The Hall Coefficient Of A Semiconductor Sample. , Set Up To Analyze Elliptically Polarized Light By Using A Babinet’S Compensator , Set Up To Determine The Wavelength And Velocity Of Ultrasonic Waves In A Liquid ( Kerosene Oil, Xylene, Etc. ) By Studying The Diffraction Through Ultrasonic Grating , Set Up To Determine The Refractive Index Of ( 1 ) Glass And ( 2 ) A Liquid By Total Internal Reflection Using A Gaussian Eyepiece , Set Up To Verify The Law Of Malus For Plane Polarized Light , Cathode Ray Oscilloscope ( 30 Mhz Dual Trace ) , Travelling Microscope , Function Generator , All In One Desktop Computer 10Th Gen, Intel Core I3-1005G1, 1.1Ghz 8Gb Ram, 512 Gb Ssd, 23.8 Inch Fhd Display….. Model:24-Dp0816in , All In One Desktop Computer Hp Omen Core I5 10Th Gen ( 8Gb / 512Gbssd…. , Equilateral Glass Prism For Spectrometer , Servo Stabiliser -10Kva Model:6346 , Servo Stabiliser - 5Kva Model: 6344 , Scanner Cum Laser Printer , Set Up To Determine The Band Gap By Measuring The Resistance Of A Thermistor At Different Temperature , Spectrometer-Dia:7 Inch; Vernier Constant:20Sec , Set Up To Study The Pe Hysteresis Loop Of A Ferroelectric Crystal , To Study The I-V Characteristics Of Zener Diode And Its Use As Voltage Regulator , Study Of V-I And Power Curves Of Solar Cells And Find Maximum Power Point And Efficiency , To Determine Plank’S Constant Using Leds Of At Least 4 Different Colour , Set Up To Study The Complete I-V Characteristics Of A Tunnel Diode , Set Up To Study Half Adder, Full Adder And Fourbit Binary Adder , Set Up To Study Half Subtractor , Full Subtractor, Adder-Subtractor Using Full Adder Ic , To Determine Self-Inductance Of A Coil By Anderson’S Bridge , To Study The Motion Of Spring And Calculate ( A ) Spring Constant, ( B ) G And ( C ) Modulus Of Rigidity , To Determine The Elastic Constants Of A Wire By Searle’S Method , Ac Milivoltmeter , Regulated Dc Power Supply , Regulated Dc Power Supply , Ballistic Galvanometer , Dead Beat Galvanometer , Digital Weighing Machine , Portable Type Pointer Galvanometer
|
