Divisions
Course Description
Students will gain expertise in the techniques of elementary circuit analysis. DC resistive circuits are first analyzed using Ohms and Kirchhoffs laws, voltage and current division, resistance and source combinations, and superposition. Basic techniques are expanded to include dependent sources, mesh analysis, nodal analysis, Thevenins and Nortons theorems, and the maximum power transfer theorem. Sinusoidal, exponential, and damped sinusoidal forcing functions are then introduced along with inductance and capacitance. LaPlace transforms are used to obtain complete solutions for first and second order RL, RC, and RLC circuits. Prerequisite/Corequisite: MAT 1720. J fall.
Academic Level (Course Level)
CR
Schedule Type
Lecture
Grade Modes
Audit, Special Audit, Standard Letter Grade, Credit/Fail Standard Letter
Course Attributes
E, L, N