PHYS-1402 College Physics II (lecture/lab)

This lecture and lab course should combine all of the elements of PHYS-1302 (lecture) and PHYS-1102 (lab), including the learning outcomes listed for both courses. Lec 3, Lab 3, Cr 4

Credits

4

Prerequisite

PHYS-1301, PHYS-1101 or PHYS-1401

Outcomes

  1. Lecture: Solve problems involving the inter-relationship of fundamental charged particles, and electrical forces, fields, and currents.
  2. Lecture: Apply Kirchhoff's Rules to analysis of circuits with potential sources, capacitance, inductance, and resistance, including parallel and series capacitance and resistance.
  3. Lecture: Solve problems in the electrostatic interaction of point charges through the application of Coulomb's Law.
  4. Lecture: Solve problems involving the effects of magnetic fields on moving charges or currents, and the relationship of magnetic fields to the currents that produce them.
  5. Lecture: Use Faraday's and Lenz's laws to determine electromotive forces and solve problems involving electromagnetic induction.
  6. Lecture: Articulate the principles of reflection, refraction, diffraction, interference, and superposition of waves.
  7. Lecture: Describe the characteristics of light and the electromagnetic spectrum
  8. Lab: Develop techniques to set up and perform experiments, collect data from those experiments, and formulate conclusions from an experiment.
  9. Lab: Demonstrate the collections, analysis, and reporting of data using the scientific method.
  10. Lab: Record experimental work completely and accurately in laboratory notebooks, and communicate experimental results clearly in written reports.
  11. Lab: Solve problems involving the inter-relationship of fundamental charged particles, and electrical forces, fields, and currents.
  12. Lab: Apply Kirchhoff's Rules to analysis of circuits with potential sources, capacitance, inductance, and resistance, including parallel and series capacitance and resistance.
  13. Lab: Solve problems in the electrostatic interaction of point charges through the application of Coulomb's Law.
  14. Lab: Solve problems involving the effects of magnetic fields on moving charges or currents, and the relationship of magnetic fields to the currents that produce them.
  15. Lab: Use Faraday's and Lenz's laws to determine electromotive forces and solve problems involving electromagnetic induction.
  16. Lab: Solve problems applying the principles of reflection, refraction, diffraction, interference, and superposition of waves.
  17. Lab: Solve practical problems involving optics, lenses, mirrors, and optical instruments.