Physics

Learn about nuclear medicine, a branch of medicine using radioactive substances to diagnose and treat diseases, providing detailed physiological insights.

Explore the essentials of the hydraulic gradient, its impact on water flow, pressure, energy loss, and applications in environmental engineering.

Explore how nuclear reactors function and their role in producing vital medical and industrial isotopes.

Activation analysis is a scientific method used to identify and quantify elements in materials by making them radioactive and analyzing emitted radiation.

Beta spectroscopy analyzes the energy of beta particles from radioactive decay, aiding research in nuclear physics, material science, and more.

Gamma spectroscopy is an analytical method used to analyze the energy and intensity of gamma rays emitted from materials, vital for studying atomic structures and processes.

Radioimmunoassay (RIA) is a scientific technique for measuring minute amounts of antigens like hormones and drugs in samples using specific antibodies and radioactive labels.

Explore the fundamentals of Positron Emission Tomography (PET), a medical imaging technique that maps body functions by detecting gamma rays from radioactive tracers.

Learn about radiopharmaceuticals, radioisotope-containing drugs used for diagnosis and treatment in nuclear medicine.

Radiotracer techniques use radioactive isotopes to study material properties and behaviors at atomic and molecular levels.