STUDY OF POWER SOURCE 
1. 
 To obtain the output voltage, output resistance of source and power dissipation in the load for different RL taking same & different R2/R1 ratios.
 To study the reflected load resistance in a network.


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PHASE MEASUREMENTS BY SUPERPOSITION 
2. 
 To study relative phases of voltage across the resistors and capacitors in series.
 To study phase relationship between VR and VC in simple and complex RC circuits.
 To study phase relationship amongst the various voltages in an LCR circuit.
 To measure the phase of the voltage across two points in a complex network.


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STUDY OF MAGNETIC FIELD IN HELMHOLTZ COIL ARRANGEMENT 
3. 
 Measurement of magnetic field strength along the Z  axis of a single coil.
 Measurement of axial and radial components of magnetic field with radial distance from the axis r = 5, 10, 15 cm when the distance between the coils is equal to the coil radius in a Helmholtz coil arrangement.
 Measure the Magnetic field along the Z axis of the coils with r = 0 when the distance between them is a = R ( R= Radius of the coils) and when a > R , a < R.


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STUDY OF RESISTOR, CAPACITOR, INDUCTOR WITH AC SOURCE 
4. 
 To study simple AC circuit and to show that currents are in quadrature. Determination of effective ac resistance.
 To study the deviation in behavior of a realistic capacitor using shunt resistance.
 To determine effective series resistance for a capacitor corresponding to a shunt across it and verify it experimentally.
 To determine equivalent power loss resistance inductor.


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STUDY OF CHARGING/DISCHARGING OF A CAPACITOR 
5. 
 To study the voltage across a capacitor during charging in an RC circuit.
 To study charging and discharging current characteristics in an RC circuit.
 To study the energy dissipation in charging of a capacitor and to study its dependence on C, V and R values.
 To study the energy dissipation during adiabatic charging of a capacitor in three steps.


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BH CURVE TRACING 
6. 
 Analysis of a given magnetic ferromagnetic material
 Identification of magnetic phase


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STUDY OF ELECTROMAGNETIC INDUCTION 
7. 
 To study the e.m.f induced as function of the velocity of the magnet.
 To study the charge delivered due to induction and prove the integration.
 To study the electromagnetic damping.


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