Standard syllabus
Circuits · Undergraduate · Engineering
Topics
DC circuit fundamentals
- Voltage, current, power, and energy definitions
- Ohm's law and passive sign convention
- Series and parallel resistive networks
- Kirchhoff's current law (KCL) and voltage law (KVL)
- Node-voltage (nodal) analysis method
- Mesh-current (loop) analysis method
- Thevenin and Norton equivalent circuits
- Maximum power transfer theorem
- Superposition principle for linear circuits
- Wye-delta (Δ-Y) transformations
Capacitors, inductors, and transient response
- Capacitor and inductor constitutive relations
- Series and parallel combinations of C and L
- First-order RC and RL circuits
- Initial conditions and continuity constraints
- Step response and time constants
- Second-order RLC circuits: natural response types
- Forced response and complete solution structure
- Phasor introduction for sinusoidal steady state
- Impedance and admittance of R, L, C elements
- AC steady-state power: real, reactive, and apparent
Pricing calculator
Choose materials, tutoring, or both — or book a single session as needed. Customize your plan on the subscribe page.
Billed in 15-minute increments (15-minute minimum, up to 4 hours). No subscription required.
$60.00 · 60 min · Undergraduate · Online ($60/hr)
Book through intake or schedule a session.