Physics

Explore the essentials of fluid particle dynamics, covering models, analysis, simulations, applications, and future challenges in various industries.

Radiotracer kinetics is the study of chemical and biological processes through substances labeled with radioactive isotopes.

Radioactive isotopes are unstable atomic variants that emit radiation, utilized in glacier studies to track ice movements and analyze climate changes.

Learn how radiochemical separation isolates radioactive elements for use in medicine, environmental science, and more.

Radiolytic degradation employs ionizing radiation like gamma rays to break down resistant pollutants, transforming them into less harmful substances.

Radiogenic isotopes are variants of elements that form through radioactive decay and are essential in studying oceanic age, movements, and processes.

Learn about Low-Level Radioactive Counting (LLRC), a technique essential for measuring minute levels of radioactivity for environmental safety, medical applications, and scientific research.

Radioisotope tracer techniques use radioactive isotopes to track sediment movement in environmental studies.

Radioiodination techniques involve introducing radioactive iodine isotopes into compounds for nuclear medicine applications in diagnostics and therapy.

Nuclear track emulsion is a photographic technique used in particle physics to record and analyze the trajectories of charged particles.