Rizzoni provides this common language. The text is famous for its:
Unidirectional valves used for rectifying AC signals into DC power.
Simple motors and generators utilizing commutators for speed control.
If you are a mechanical engineer, a computer science student, or a non-EE major staring down a required circuits course, you have likely encountered a thick green textbook:
You cannot pass any circuits class without (Kirchhoff’s Current Law) and KVL (Kirchhoff’s Voltage Law).
: Focusing on important results and practical applications rather than exhaustive theoretical derivations.
Fundamentals of Electrical Engineering navigates this middle ground expertly. Rizzoni, a professor at Ohio State University with deep ties to automotive engineering and electric vehicles, infuses the text with a "make it work" mentality. The book does not merely ask students to solve for $X$; it asks students to understand why $X$ matters in the context of a larger system.
Rizzoni provides this common language. The text is famous for its:
Unidirectional valves used for rectifying AC signals into DC power.
Simple motors and generators utilizing commutators for speed control.
If you are a mechanical engineer, a computer science student, or a non-EE major staring down a required circuits course, you have likely encountered a thick green textbook:
You cannot pass any circuits class without (Kirchhoff’s Current Law) and KVL (Kirchhoff’s Voltage Law).
: Focusing on important results and practical applications rather than exhaustive theoretical derivations.
Fundamentals of Electrical Engineering navigates this middle ground expertly. Rizzoni, a professor at Ohio State University with deep ties to automotive engineering and electric vehicles, infuses the text with a "make it work" mentality. The book does not merely ask students to solve for $X$; it asks students to understand why $X$ matters in the context of a larger system.
