# Millman's theorem yields?

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Millman's theorem yields?

Millman's theorem yields equivalent voltage or current source.

## Related questions

Millman's theorem yields equivalent  (1) Impedance or Resistance (3) Voltage source (2) Current source (4) Voltage or Current source

Application of Norton's theorem to a circuit yields?

Which of the following statements is incorrect ? (A) Superposition theorem is useful for Linear and Non-linear circuit analysis when several sources are present in the circuit. (B) Thevenin's equivalent network consists of one voltage source in series with an impedance. (C) Norton's equivalent network consists of ... . (D) When both the load and source impedances are purely resistive, maximum power transfer is achieved under the condition : Load Resistance = Source Resistance

The superposition theorem requires as many circuits to be solved as there are?

While calculating Rth in Thevenin's theorem and Norton equivalent?

In Thevenin's theorem, to find Z?

The superposition theorem is applicable to?

The concept on which Superposition theorem is based is?

Superposition theorem can be applied only to circuits having?

Maximum Power Transfer Theorem 1

Write the steps for finding the current through an element by Thevenin’s theorem.

State Thevenin’s Theorem.

State Superposition Theorem.

State superposition theorem applied to D.C. circuits.

State maximum power transfer theorem for DC circuit.

As per Shannon’s channel capacity theorem, if samples are transmitted in ‘T’ seconds over a noisy channel which is bandlimited to ‘B’ Hz. The number of samples ‘n’ is given by (symbols/notations carry their usual meaning) A) B/T B) T/B C) 2BT D) BT/2

Norton’s theorem states that a complex network connected to a load can be replaced with an equivalent impedance (A) in series with a current source (B) in parallel with a voltage source (C) in series with a voltage source (D) in parallel with a current source

The superposition theorem is based on the concept of ?

Why superposition theorem is not valid for power?

Can you apply Thevenin's theorem in an AC circuit?

Can we apply the superposition theorem to AC circuit?

Can we apply Norton's theorem in an AC circuit?

Application of Norton's theorem to a circuit yields : (A) Equivalent current source only (B) Equivalent voltage source only (C) Equivalent voltage source and impedance in series (D) Equivalent current source and impedance in parallel

To find current in a resistance connected in a network, Thevenin's theorem is used VTH = 20 V and RTH = 5 Ω. The current through the resistance: (1) is 4 A (2) is 4 A or less (3) is less than 4 A (4) May be 4 A or less or more than 4 A

In application of superposition theorem, one is required to solve as many circuits as there are  1. Nodes 2. Branches 3. Meshes 4. Sources

A unit ramp function when integrated yields: A) unit parabolic function B) unit ramp function C) unit doublet D) unit impulse function

In a control system, moving a summing point right side to the block yields in  (A) Multiplication of the G(s) in the feedback path (B) Multiplication of the 1/G(s) in the feedback path (C) Addition of gain block (D) Subtraction of gain block

Which input yields natural response ? (A) Step input (B) Sinusoidal input (C) Impulse input (D) Ramp input

For AC networks, as per maximum power transfer theorem, for maximum power transfer, the source impedance should be equal to: A) twice the load impedance B) complex conjugate of load impedance C) twice the complex conjugate of load impedance D) none of these

Superposition theorem is not applicable to network containing: (1) Non linear element (2) Dependent voltage source (3) Dependent current source (4) Transformer.

Gauss's theorem states that total electric flux Φ emanating from a closed surface is equal to (a) Total current density on the surface (b) Total charge enclosed by that surface (c) Total current on the surface (d) Total charge density within the surface

Superposition theorem stays valid for a : -  a) LTI system b) Discrete system c) LT systems d) None of these

In applying superposition theorem, to determine branch currents and voltages   (a) all current and voltage sources are shorted. (b) only current sources are open circuited. (c) only voltage sources are shorted. (d) voltage sources are shorted and current sources are open circuited.

Which ofthe following theorem is applicable for both linear and non-linear circuits?   A) Superposition theorem B) Thevenin’s theorem C) Norton’s theorem D) None of these

Norton's Theorem is a way to reduce a network to  (A) An equivalent circuit composed of a single current source, series resistance, and series load (B) An equivalent circuit composed of a single voltage source, parallel resistance, and parallel load (C) An equivalent circuit composed of a single voltage source, series resistance, and series load (D) An equivalent circuit composed of a single current source, parallel resistance, and parallel load

Thevenin’s theorem can be applied to network containing : (A) Passive elements only (B) Active elements only (C) Linear elements only (D) All of these

What is branch?

What is node?

What is active and passive network?

In the circuit shown below, the current through the inductor is,