Physics is the branch of science that studies matter, energy, and the fundamental forces of nature. It seeks to understand how the universe behaves, from the smallest particles to the largest galaxies. Key areas of physics include classical mechanics (motion and forces), thermodynamics (heat and energy), electromagnetism, quantum mechanics, and relativity. Physics provides the foundation for other sciences like chemistry and astronomy, and it plays a crucial role in technological advancements, from electricity and computers to space exploration and medical imaging. Through experimentation and mathematical modeling, physics explains the natural laws that govern our world.

Physics-108

Physics 2 is a continuation of introductory physics, typically focusing on electricity, magnetism, and optics. The course covers topics such as electric fields, circuits, magnetic fields, electromagnetic waves, and light behavior. It explores key principles like Coulomb’s law, Gauss's law, Faraday's law, and Maxwell's equations. Physics 2 often includes practical applications such as understanding electric circuits, optical systems, and electromagnetic technologies. It builds on the concepts learned in Physics 1, providing a more in-depth understanding of the physical forces that govern everyday electrical and optical phenomena.

Physics 107

Physics 1 is an introductory course in physics that typically covers the fundamental principles of classical mechanics. It focuses on topics such as motion, forces, energy, momentum, and rotational dynamics. Students learn about Newton's laws of motion, work-energy theorems, conservation laws, and the basics of kinematics. Physics 1 also introduces concepts like gravitational forces and simple harmonic motion. This course forms the foundation for more advanced studies in physics, engineering, and other sciences, emphasizing problem-solving skills and the application of mathematical principles to physical phenomena.