UELE 112 - Circuit Analysis II

1. Explain principles of electromagnetism and electromagnetic induction.
2. Calculate voltages and currents using phasors. 
3.  Analyze the transient behavior of series Resistor Capacitor (RC) and Resistor Inductor (RL) circuits.
4. Calculate inductive and capacitive reactances.
5.  Use Kirchhoff`s voltage and current laws to write loop or nodal equations for appropriate networks.
6. Analyze the ideal transformer in terms of voltage, current and impedance. 
7. Calculate voltages and currents for series, parallel and series-parallel AC circuits using the concepts of impedance and admittance.
8. Analyze and calculate basic three-phase circuits for various generator to load configurations. 
9. Apply the principles of superposition and Thevenin`s theorems, to simple resistive and reactive circuits.
10. Construct RL, RC, and Resistor, Inductor, and Capacitor (RLC) networks; measure currents and voltages using the appropriate text equipment.

• Electromagnetism 
• Electromagnetic induction 

II. Introduction to Alternating Current and Voltage 

• Non-sinusoidal waveforms 

III. Capacitance 

• Transient response of RC circuits 
• Capacitance in AC circuits 

IV. Inductance 

• Definition and physical properties 
• Circuit configurations and total inductance 
• Transient response of RL circuits 
• Inductance in AC circuits 

V. Transformers 

• Loading and reflected load 
• Impedance matching 

VI. RC Circuits 

• Approved circuits configurations and total impedance 
• Power in RC circuits 

VII. RL Circuits 

• Circuit configurations and total impedance 
• Power in RL circuits 

VIII. RLC Circuits 

• Circuit configurations and total impedance 
• Power in RLC circuits 
• Resonance 
• Filters 

IX. Circuit Theorems 

• Voltage and current sources 
• Source conversions 
• Superposition theorem 
• Thevenin`s theorem 
• Maximum power theorem 
• WYE-DELTA networks and conversions