Physics

Quantum Chromodynamics (QCD) is a theory describing the strong interaction binding quarks and gluons in particle physics.

Neutron stars, remnants of massive stars post-supernova, are one of the densest forms of matter in the universe, exhibiting extreme physical properties.

Stellar nucleosynthesis is the process of element creation within star cores through nuclear fusion, fueling stars and contributing to cosmic chemical evolution.

Nuclear astrophysics examines how nuclear processes influence cosmic phenomena, from element formation in stars to applications in technology and medicine.

Neutron scattering is a technique used to examine atomic and magnetic structures in various materials by observing how neutrons interact with them.

Explore the mechanics of siphoning in fluid dynamics, covering gravity’s role, pressure effects, limitations, and practical applications.

Understand chain reactions, a process where initial reactions trigger further reactions, continuing until reactants are exhausted or stabilized, pivotal across chemistry, nuclear physics, and biology.

Learn about particle accelerators, machines that propel charged particles at high speeds to study fundamental matter and forces.

Learn about heavy ion collisions, where nuclei smash together at near light speed to reveal matter’s properties under extreme conditions.

Nuclear spectroscopy is a branch of physics that investigates the properties and behaviors of atomic nuclei using electromagnetic radiation.