Q.1
The branch current method is based on Kirchhoff's voltage law and Kirchhoff's current law.
Q.2
The mesh current method is based on Kirchhoff's current law.
Q.3
The mesh method can be applied to circuits with any number of loops.
Q.4
A loop current is an actual current in a branch.
Q.5
The node voltage method is based on Kirchhoff's voltage law.
Q.6
Second-order determinants are evaluated by subtracting the signed cross-products.
Q.7
When assigning branch currents, you need not be concerned with the direction you choose.
Q.8
Generally, the mesh current method results in fewer equations than the node voltage method.
Q.9
Third-order determinants are evaluated by the expansion method or by the cofactor method.
Q.10
The expansion method for evaluating determinants is
Q.11
Using the mesh current method, find the branch current, IR1, in the above figure.
Branch, Loop and Node Analyses mcq question image
Q.12
What is the current through R2?
Branch, Loop and Node Analyses mcq question image
Q.13
Find the node voltage VA.
Branch, Loop and Node Analyses mcq question image
Q.14
Find the node voltage VA.
Branch, Loop and Node Analyses mcq question image
Q.15

Generally, the mesh current method results in fewer equations than the node voltage method.

  • True
  • False
Q.16

The node voltage method is based on Kirchhoff's voltage law.

  • True
  • False
Q.17

Third-order determinants are evaluated by the expansion method or by the cofactor method.

  • True
  • False
Q.18

Second-order determinants are evaluated by subtracting the signed cross-products.

  • True
  • False
Q.19

A loop current is an actual current in a branch.

  • True
  • False
Q.20

The mesh current method is based on Kirchhoff's current law.

  • True
  • False
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