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Dec 26, 2024
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PHYS 212 - Physics for Scientists and Engineers 2 Credits: 5 Lecture Contact Hours: 5 Lab Contact Hours: 2 Description: This second semester, calculus-based course is a continuation of PHYS 211 . Advanced topics such as electricity, magnetism, light and modern physics are investigated through lecture demonstration, simulations and laboratory work. This course is designed for engineering students and science majors.
Prerequisites: PHYS 211 with a minimum grade of 2.0. Corequisites: None. Recommended: None.
Course Category: Liberal Arts | Science with Lab This course counts toward Schoolcraft’s General Education Requirements. This course counts toward a Michigan Transfer Agreement General Education Requirement.
This Course is Typically Offered: Winter, Spring, Summer, Fall Check Course Availability
Course Competencies
- Analyze the thermodynamic efficiency of various engine cycles.
- Analyze thermodynamic processes using the first law of thermodynamics and the ideal gas law.
- Evaluate the electric force between point charges.
- Evaluate the electric field at a distance from a charged object.
- Sketch both electric field lines and equipotential lines around charged objects.
- Analyze the motion of a charge in terms of the electric field it encounters.
- Evaluate the electric potential at a distance from a charged object.
- Analyze the motion of a charge in terms of the electric potential it encounters.
- Analyze properties of simple AC and DC circuits.
- Relate the magnetic force on a moving charge to the magnetic field it encounters.
- Sketch the magnetic field near a current carrying wire.
- Evaluate the magnetic field at a distance from a current carrying wire.
- Relate the acceleration of charge to electromagnetic waves.
- Analyze the image formed by a system of lenses and/or mirrors.
- Use the principle of superposition to explain interference and diffraction effects for electromagnetic waves.
- Assign the appropriate SI unit to a physical characteristic.
- Use significant figures when reporting calculated values.
- Use a digital multimeter to measure current, voltage and resistance.
- Use DataStudio for data acquisition.
- Develop data tables and graphs to portray the results of experimental data collection.
- Use curve fitting to analyze data.
- Identify sources of experimental error.
- Develop a conclusion based on analysis of experimental data.
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