Sinusoidal Steady State Analysis
This week's lab is based on the sinusoidal steady state analysis using capacitive and inductive
circuits in Multisim. You will learn to utilize Multisim to perform the mesh analysis.
In the frequency domain circuit below, determine the currents 11, 12 and 13.
Companiese be. - dopley
Switch the places of capacitor and inductor and repeat step 2 to determine the
Record the values in the table below:
Step 3 (Capacitor and
5. Construct the circuit above in Multisim.
a. Run the simulation to measure the currents 11, l2 and l3. (Use 5% tolerances
for the resistor)
b. Perform Steady State AC Analysis and trace the voltage across the capacitor.
c. Find the average power, reactive power and apparent power supplied by the
voltage source. (Show calculated and measured)
d. Take the screen capture of all the measurements and the AC analysis
6. Answer the following questions:
a. Are the measured values same as calculated values? If not, explain why they
b. Explain if the circuit is linear or non-linear?
c. Compare the measurements of currents from step 2 and 3 and explain the
d. What do you understand from the steady state AC analysis of this circuit?
7. Create a new word document called "Lab5_ _StudentID .docx" with your GID
substituted into the file name.
8. Save the analysis from step 2 & 3 and simulation results from step 5 along with the
table and screen captures of all the measurements. Make sure to answer the
questions in step 6.
9. Upload file "Lab5_StudentID'
tly equal to your calculated values.
These solutions may offer step-by-step problem-solving explanations or good writing examples that include modern styles of formatting and construction
of bibliographies out of text citations and references. Students may use these solutions for personal skill-building and practice.
Unethical use is strictly forbidden.