JoVE Science Education is a library of simple video demonstrations teaching scientific fundamentals in biology, chemistry, physics, engineering, environmental sciences, psychology, and clinical skills.
There are a number of laboratory procedure and skills videos available in JoVE Science Education. These include general laboratory knowledge as well as subject specific information.
This collection provides safety guidelines to be followed when working with hazardous materials and equipment. It covers universal topics such as PPE, electrical safety, and general emergency guidelines, as well as some specific safety procedures for chemistry and biology laboratories.
This collection is a comprehensive video guide for appropriate lab animal care and use. Since a majority of biomedical research is focused on studies involving rodents, it is critical that every scientist learns the essential procedures demonstrated in these videos.
Over 300 animated video lessons explaining key concepts in biology, plus more than 150 scientist-in-action videos showing actual research experiments conducted in laboratories. Includes topics such as cellular processes, genetics, and more.
Interactive, multimedia laboratory manual for introductory biology lab courses. Includes comprehensive videos on 32 major concepts in biology, along with instructor prep materials and student protocols.
This collection presents commonly used purification methods, such as affinity chromatography, as well as analytical methods, like MALDI-TOF. In addition, the videos showcase methods for assessing biomolecule interaction and function, such as co-immunoprecipitation and metabolic labeling.
This collection covers core bioengineering concepts, which include production of biomaterials, histotypic and whole organ tissue cultures, bioprocessing techniques, and the complex system-level fields of bioMEMs and biosensing.
This collection describes the central concepts in biomedical engineering with a focus on imaging techniques to visualize and detect medical conditions, methods to quantify biomechanical strain, and computational modeling to simulate blood flow.