Introduction to Free Particle Wave Equations:

Free particle wave equations are fundamental concepts in quantum mechanics, describing the behavior of particles that are not subject to external forces. These equations are central to understanding the wave-like properties of particles such as electrons, photons, and neutrino and they play a pivotal role in quantum physics. By solving these equations, physicists can determine the quantum mechanical properties, including energy levels and momentum, of free particle

Schrödinger Equation for Free Particles:

Explore the Schrödinger equation, which describes the time evolution of quantum states for free particles, providing insights into their wavefunctions and energy eigenvalues.

Klein-Gordon Equation:

Dive into the Klein-Gordon equation, a relativistic wave equation that describes the behavior of free scalar particles like mesons and pions, incorporating special relativity effects.

Dirac Equation for Free Electrons:

Examine the Dirac equation, a relativistic wave equation that describes the behavior of free electrons, elucidating the quantum mechanical properties of spin-1/2 particles with relativistic effects.

Quantum Mechanics of Free Photons:

Explore the quantum mechanics of free photons, which are massless and described by the electromagnetic wave equation, leading to phenomena such as quantization of electromagnetic radiation.

Quantum Mechanical Propagation of Neutrinos:

Investigate the quantum mechanical properties and wave equations associated with neutrinos, which are elusive, neutral, and interact only weakly with matter, making them a unique subject of study.