Using the superposition principle, calculate branch current through the inductor.

See attached file for full problem description.

Using nodal analysis in the attached circuit, calculate mesh current in the phasor domain

Using nodal analysis calculate mesh current in the phasor domain (see attached file for the circuit). See attached file for full problem description.

In the attached circuit, find the current i(t) through the inductor

In the attached circuit, find the current i(t) through the inductor. See attached file for full problem description.

In the attached circuit, calculate i(t) using nodal analysis

In the attached circuit, calculate i(t) using nodal analysis. (See attached file for full problem description)

Calculate complex power in an inductive circuit

Calculate S, complex power of a load (in rectangular form), given the following data: magnitude of S = 600 VA; Q = 450 VAR (inductive). See attached file for full problem description.

Calculate voltage across a resistor using mesh analysis.

In the attached circuit, calculate Vo, the voltage at the 2 Ohm resistor. Results should be in the phasor domain. See attached file for full problem description.

Calculate the Thevenin equivalent resistance

Calculate the Thevenin equivalent resistance at terminals a-b for the attached circuit. (See attached file for full problem description)

For the attached circuit, calculate the Norton Equiv.

For the attached circuit, calculate the Norton Equiv. Circuit at terminals a-b

For the attached circuit, calculate the Thevenin equiv. voltage

For the attached circuit, calculate the Thevenin equiv. voltage at terminals a-b

For the attached circuit, calculate the Norton equivalent resistance

For the attached circuit, calculate the Norton equivalent resistance at terminal a-b. See attached file for full problem description.