electric charges; forces and fields; electric potential and electric potential energy; electrical capacitance electric elements like capacitors, resistors, and conductors; electric current and direct-current circuits; magnetic fields; magnetic force; induction; and RC and RL circuits
i. To provide students with clear and logical presentation of the basic concepts and principles of Physics.
ii. To strengthen an understanding of the concepts and principles through a broad range of interesting
applications to the real world.
iii. Applying Coulomb’s Law, Faraday’s Law, Ohm’s Law, Kirchoff’s rules, and Lenz’s Law to solve
problems in electromagnetism, such as calculating current, potentials, resistances, and electromotive
forces for simple AC and DC circuits.
i. Define the relationship between electric charges, forces, fields, and electrical energy.
ii. Setup and analysis of simple electrical circuits, understanding of the relationship between current and voltage
(application, knowledge, analysis).
iii. Define the relationships between currents, magnetic forces, and magnetic fields.
iv. Recognize the relationship between time-varying magnetic fields and electrical potential.
Physics for Scientists & Engineers with Modern Physics, Serway& Jewett, 9 th . Ed.
Activity | Percent (%) |
---|---|
online quizes | 30% |
assignments | 70% |