PHYS 212 Physics Scientists & Engineers 2*
This course includes a study of Coulomb's Law, electric fields, electric potential, magnetic fields, magnetic induction, D.C. circuit analysis, inductance, A.C. circuits, geometrical and physical optics, interference and diffraction, and introductory modern physics.
PHYS 212Physics Scientists & Engineers 2*
Please note: This is not a course syllabus. A course syllabus is unique to a particular section of a course by instructor. This curriculum guide provides general information about a course.
I. General Information
II. Course Specification
Credit Hours Narrative
5 Credits
Prerequisite Narrative
PHYS 211
Corequisite Narrative
MATH 175 or higher and PHYS 212L
III. Catalog Course Description
This course includes a study of Coulomb's Law, electric fields, electric potential, magnetic fields, magnetic induction, D.C. circuit analysis, inductance, A.C. circuits, geometrical and physical optics, interference and diffraction, and introductory modern physics.
IV. Student Learning Outcomes
Upon completion of this course, a student will be able to:
- Apply foundational knowledge and models of Motion, Newtonian Mechanics, Energy, Momentum, and Thermodynamics as they apply to Electromagnetism to analyze and/or predict phenomena.
- Apply foundational knowledge and models of Light and Special Relativity to analyze and/or predict phenomena.
- Use appropriate mathematical tools in conjunction with physics concepts to solve problems.
- Understand the scientific method and apply scientific reasoning to critically evaluate assertions.
- Interpret and communicate scientific information via written, spoken, and/or visual representations.
- Describe the relevance of the principles of Motion, Newtonian Mechanics, Energy, Momentum, Thermodynamics, Light and Special Relativity to the human experience.
- Form and test a hypothesis in the laboratory using appropriate tools and techniques for data collection and/or analysis.
- Be prepared for entry into courses requiring a full course in introductory calculus-based physics.
V. Topical Outline (Course Content)
VI. Delivery Methodologies