A nuclear blast releases massive amounts of energy, which dissipate as a fireball, blast forces/waves, prompt radiation, light and heat (thermal energy), and delayed ionizing radiation (i.e.Particulate radiation: alpha and beta particles, and neutrons.Electromagnetic radiation: ultraviolet, infrared, visible, gamma and x-ray.During and following a nuclear explosion, radiation is released including.The explosive energy from a nuclear detonation is quantified in terms of the number of kilotons (Kt) of the conventional explosive TNT (trinitrotoluene) that it would take to create the same blast effect.Bombs dropped on Hiroshima and Nagasaki, Japan at the end of World War II are examples of nuclear explosions.The energy released in a nuclear explosion derives from the splitting (fission) of radioactive materials, e.g.Nuclear Detonation: General Information 3 Historical Nuclear Testing Film Clips and Nuclear Safety Films.Selection of Radiation Detection Systems.Numbers and Types of Casualties from Various Computer Modeled Nuclear Detonation Scenarios.Shelter in Place: Shielding by Buildings from Fallout and Blast.Communicating After an IND Detonation: Resource for Responders and Officials.Nuclear Detonation: General Information.Nuclear Detonation: Weapons, Improvised Nuclear Devices Nuclear Detonation: Weapons, Improvised Nuclear Devices ![]() ![]() Countermeasures - Use of Myeloid Cytokines.Template for Hospital Orders (Adults/Children).
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