Introductory Physics I
Seoul, South Korea
Area of Study
Taught In English
Course Level Recommendations
ISA offers course level recommendations in an effort to facilitate the determination of course levels by credential evaluators.We advice each institution to have their own credentials evaluator make the final decision regrading course levels.
Recommended U.S. Semester Credits3
Recommended U.S. Quarter Units4
Hours & Credits
By its definition, physics is a science that examines the fundamental principles and processes by which the natural world operates. This course will cover most of such fundamental concepts in the areas of classical dynamics, electromagnetism, thermodynamics and quantum physics. It is a unique course, aiming to give a complete and coherent view of the physical world for beginners (assuming the students have the solid high-school level of mathematics). Calculus is not a prerequisite to follow this course, although students do need to be able to differentiate simple functions.
The course will achieve two aims: (a) the students will form a complete qualitative picture and be able to recognize the basic physical effects behind most natural phenomena; (b) the students will understand the origin of, and be able to manipulate key physical equations to estimate quantitative values of observed parameters.
There is no “textbook” for such a course, the lecture material will be distributed in class. However, students are recommended, although not obliged, to obtain and read some of the classical textbooks that cover the material of this course (and much more):
- Fundamentals of Physics, D. Halliday R. Resnick and J. Walker (8th edition, Wiley 2008)
- Feynman Lectures in Physics, R.P. Feynman et al. (Addison-Wesley, 1963)
Syllabus for Introductory Physics:
- Chapter 1: Classical dynamics – Forces as vectors, action and reaction, equilibrium, friction; Turning moments, center of mass, equilibrium; Energy: work, potential energy, kinetic energy, conservation laws; Rotational motion: angular velocity and acceleration, rotating frames, centripetal force, orbits, angular momentum, moments of inertia.
- Chapter 2: Electromagnetism – Electric field, electrostatic potential, Gauss’ law in electrostatics, images; Magnetic field, force on moving charges, magnetic flux, Faraday’s law; Energy of electric and magnetic fields; Voltage, current and charge in electric circuits, electrical resistance and capacitance.
- Chapter 3: Oscillations and Waves – Simple harmonic motion, oscillators and pendulums, amplitude and phase of oscillation; Resonance; Damped oscillators, energy decay; Oscillations in electric circuits, impedance; Waves on a string, running and standing waves, the wave equation, superposition of waves.
- Chapter 4: Quantum Physics – Particle-wave duality, Schrödinger wave equation, wave packets; Particle in a square well, tunneling, Heisenberg uncertainty principle; Bohr description of hydrogen atom, quantization of angular momentum.
- Chapter 5: Thermodynamics – Internal energy, heat and useful work, First law of thermodynamics; Ideal gas law, Avogadro number, Boltzmann constant, heat capacities; Reversible and irreversible processes, heat engines, second law of thermodynamics; Statistical equilibrium, entropy and free energy.
Courses and course hours of instruction are subject to change.