Physics

Cyclotron chemistry involves using a particle accelerator to create isotopes for medical, research, and industrial applications.

Learn about radioprotection and dosimetry, essential in protecting against harmful effects of ionizing radiation and measuring radiation dose.

Radioisotope thermoelectric generators (RTGs) are nuclear batteries that convert heat from radioactive decay into electricity, used in space and remote locations.

Explore the fundamentals and applications of Positron Annihilation Spectroscopy, a technique for analyzing material properties at the atomic level.

Nuclear pharmacy specializes in preparing and dispensing radiopharmaceuticals used in nuclear medicine to diagnose and treat diseases.

Radiation chemistry explores chemical changes in materials due to absorption of radiant energy from radioactive sources, such as gamma rays and X-rays.

Explore the essentials of surface wave analysis in fluid mechanics, covering applications, techniques, and future trends in environmental and engineering fields.

Learn about the significance and methods of measuring radon, a radioactive gas and major lung cancer risk.

Theranostics in nuclear medicine combines diagnostics and therapy using radioactive substances to improve cancer treatment outcomes.

Explore the fundamentals of Classical Mechanics, its principles, motion types, and applications, bridging Newton’s laws with modern physics.