This Modern Physics Full Lecture Course provides a comprehensive and structured introduction to the key ideas that define modern physics. It explains how matter and energy behave at both relativistic speeds and quantum scales, forming the foundation of today’s advanced scientific understanding.

The course begins with a review of introductory physics concepts before moving into special relativity, including Lorentz transformations, time dilation concepts, velocity addition, and experimental tests such as muon behavior. These topics explain how space and time change at high velocities.

It continues with the general theory of relativity, offering insights into gravity as a geometric property of spacetime. Additional topics such as the Doppler effect in relativistic systems and momentum-energy relationships are also covered.

The course then transitions into quantum physics, including blackbody radiation, the photoelectric effect, X-rays, Compton scattering, and wave-particle duality. These concepts explain the behavior of matter and energy at atomic and subatomic levels.

Finally, learners explore the Schrödinger wave equation and the Bohr model of the atom, which are essential for understanding atomic structure and quantum mechanics.

By the end of this course, students will have a strong understanding of modern physics principles and how they describe the fundamental nature of the universe.