Question

Among vadous circuits coDstructed with rcsistor _R, inductor _L and capacitor C, the cicuit that gives maximum power dissipation is

• A. purely inductive circuit
• B. puely capacitive circilit
• C. purely resistive circuit
• D. L-C series circuit
• E. C-R sedes circuit

Answer 1

The Correct Option is C

Maximum Power Dissipation in RLC Circuits 

We want to determine which circuit, constructed with a resistor R, inductor L, and capacitor C, gives maximum power dissipation.

Step 1: Power Dissipation in AC Circuits

In AC circuits, power is dissipated only by the resistor. Inductors and capacitors store energy but ideally do not dissipate it. The average power dissipated in an AC circuit is given by:

\(P_{avg} = V_{rms} I_{rms} \cos\phi\)

Where:

• \(P_{avg}\) is the average power dissipated.
• \(V_{rms}\) is the root-mean-square voltage.
• \(I_{rms}\) is the root-mean-square current.
• \(\cos\phi\) is the power factor, where \(\phi\) is the phase angle between the voltage and current.

Step 2: Power Factor

The power factor (\(\cos\phi\)) indicates how effectively power is being used in the circuit.

• For a purely resistive circuit, the voltage and current are in phase, so \(\phi = 0\) and \(\cos\phi = 1\).
• For a purely inductive or purely capacitive circuit, the voltage and current are 90° out of phase, so \(\phi = 90^\circ\) and \(\cos\phi = 0\).
• For an RLC circuit, the phase angle depends on the relative values of R, L, and C.

Step 3: Power Dissipation in Different Circuits

• Purely Inductive Circuit: \(\cos\phi = 0\), so \(P_{avg} = 0\).
• Purely Capacitive Circuit: \(\cos\phi = 0\), so \(P_{avg} = 0\).
• Purely Resistive Circuit: \(\cos\phi = 1\), so \(P_{avg} = V_{rms} I_{rms}\), which is maximum for a given \(V_{rms}\) and \(I_{rms}\).
• L-C Series Circuit: Ideally, no resistance, so no power dissipation. In reality, there's always some resistance, but it's usually very low.
• C-R Series Circuit: Power dissipation depends on the values of C and R. The power factor will be between 0 and 1.

Conclusion

Among the various circuits constructed with resistor R, inductor L, and capacitor C, the circuit that gives maximum power dissipation is a purely resistive circuit. Note that an L-C series resonant circuit will only have its maximum power dissipation when the impedance of L is the negative of impedance in C.

Answer 2

The power dissipation in an AC circuit is given by the formula: \[ P = I^2 R \] In a purely resistive circuit, the current is in phase with the voltage, and the entire input power is dissipated as heat. In a purely inductive or purely capacitive circuit, the current and voltage are out of phase by 90°, which means that no real power is dissipated (i.e., power oscillates between the source and the inductive/capacitive components). Thus, the maximum power dissipation occurs in a purely resistive circuit where all the energy is converted to heat.