|Medium Resistance Measurement by Ammeter Voltmeter Metheod|
To determine Medium Resistance
|Measurement of Capacitance by Wien Series Bridge|
To determine the capacitance of an unknown capacitor
|Measurement of Relative permittivity by Schering Bridge|
To determine the relative permittivity of an dielectric materials
|Mutual Inductance measurement by Campbell's Bridge|
To determine mutual inductance of an unknown coil
|Verification of Substitution Theorem|
To verify Substitution Theorem of a linear electrical circuit.
|Mutual Inductance measurement by Heaviside Bridge|
To determine Mutual Inductance of a Bridge Circuit
|Self-Inductance and Capacitance measurement by Resonance Bridge|
To determine of Self-Inductance and Capacitance of an Unknown Coil.
|Low Capacitance measurement by High Voltage Schering Bridge|
To determine the Low Capacitance and Dissipation Factor.
|Self Inductance measurement of an unknown coil by Heaviside Campbell Equal Ratio Bridge|
To determine Self Inductance by using Mutual Inductance
|Verification of Compensation Theorem|
To verify the compensation theorem for linear circuit.
|Verification of Superposition Theorem|
To verify Superposition Theorem of a linear electrical circuit.
|Verification of Thevenin Theorem|
To verify Thevenin Theorem of a linear electrical circuit.
|Verification of Reciprocity Theorem|
To verify Reciprocity Theorem of a linear electrical circuit.
|Verification of Norton Theorem|
To verify Norton Theorem of a linear electrical circuit.
|Verification of Tellegen's Theorem|
To verify the Tellegen's Theorem for Linear Circuit.
|Measurement of Capacitance by Schering Bridge|
To determine the capacitance of an unknown capacitor.
|Mesurement of Self Inductance by Owen Bridge|
To determine Inductance of an unknown coil
|Measurement of Self Inductance by Maxwell's Bridge|
To determine the Inductance of an unknown coil
|Measurement of Capacitance by Carey Foster Bridge|
To determine capacitance of an unknown capacitor
|Verification of Millman’s Theorem.|
To verify Millman's Theorem of a linear electrical circuit.
|Tests on Single Phase Transformer|
To determine the Parameters of a Single Phase Transformer by conducting a) Open Circuit Test, and b) Short Circuit Test and finding the Efficiency and Regulation for a given load.
|Verification of Maximum Power Transfer Theorem.|
To verify Maximum Power Theorem.
|Determination of different parameters of Two-port network and verification of their interrelations.|
To determine Z, Y, h and ABCD parameters of single and cascade Two Port Network experimentally and verify their interrelationships.
|Measurement of Self-Inductance by Maxwell Bridge|
To determine the Self Inductance of an unknown coil.
|Measurement of Capacitance by De Sauty's (Modified) bridge |
To determine the Capacitance of a Capacitor.
|To study the Wien Robinson's Frequency Bridge.|
To determine the oscillator frequency of a bridge circuit.
|To study the Kelvin Double Bridge for Low resistance measurement .|
To determine low resistance.
|To determine Mutual Inductance measurement by Campbell's Modification of Heaviside Bridge|
To determine mutual Inductance of a Bridge Circuit
|To determine the High Resistance by Megohm Bridge method|
To determine the high resistance.
|Q meter Experiment|
To determine accurate Quality factor of an unknown coil .
|Precision Resistance Measurement by Carey Foster Slide-Wire Bridge.|
To determine Resistance precisely.
|R-L-C Circuit Analysis|
To analysis of R-L-C circuit for single phase power supply.
|Measurement of Self Inductance of High Quality Factor Coil by Hay's Bridge|
To determine the self inductance of a high quality factor unknown coil
|Mutual Inductance measurement by Heydweiller Bridge|
Mutual Inductance measurement in terms of standard capacitance
| Measurement of Self Inductance accurately by Anderson's Bridge|
Accurate self inductance measurement of an unknown coil by Anderson's Bridge
|Three Phase Power Measurement|
To measure power in a three phase circuit under i) Balanced resistive load condition. ii) Unbalanced resistive load condition.