COMPUTATIONAL PHYSICS (2/1 SCU)
Learning Outcomes:
On successful completion of this course, students will be able to: LO1 – solve problems in topics of Electric Charge and Electric Fields, Voltage and Current, Resistance and Capacitance, Circuits Design & Analysis, Magnetic Field, Induction and inductance, and Electromagnetic Oscillation and Alternating Current; LO2 – identify the concept and real-world application of Resistance and Capacitance, Circuits Design & Analysis, Magnetic Field, Induction and inductance, and Electromagnetic Oscillation and Alternating Current; LO3 – experiment computational simulations of basic electrical circuits using Python programming language; LO4 – analyze the computational simulation result of Voltage and Current, Resistance and Capacitance, Circuits Design & Analysis, Induction and inductance, and Electromagnetic Oscillation and Alternating Current.
Topics:
- Electric Charge and Electric Fields;
- Voltage and Current;
- Resistance and Capacitance;
- Circuits Design & Analysis;
- Induction and inductance;
- Magnetic Fields;
- Electromagnetic Oscillation and Alternating Current;
- Basic Python and PPE Installation;
- Basic Circuit Design and Simulation;
- Basic Resistive Circuits;
- Basic Rectifier Circuits;
- Basic Resistor – Capacitor (RC) Circuits;
- Basic Resistor – Inductor – Capacitor (RLC) Circuits.
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