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This initial kinetic energy is 67 TJ/kg, imparting an initial speed of about 12,000 kilometers per second. The remaining 93% is kinetic energy (or energy of motion) of the charged fission fragments, flying away from each other mutually repelled by the positive charge of their protons (38 for strontium, 54 for xenon). Only 7% of this is gamma radiation and kinetic energy of fission neutrons. The immediate energy release per atom is about 180 million electron volts (MeV) i.e., 74 TJ/kg.
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The following equation shows one possible split, namely into strontium-95 ( 95Sr), xenon-139 ( 139Xe), and two neutrons (n), plus energy: 235 U + n ⟶ 95 S r + 139 X e + 2 n + 180 M e V The U-235 nucleus can split in many ways, provided the atomic numbers add up to 92 and the atomic masses add to 236 (uranium plus the extra neutron). Most of these have the speed (kinetic energy) required to cause new fissions in neighboring uranium nuclei. The fission chain reaction in a supercritical mass of fuel can be self-sustaining because it produces enough surplus neutrons to offset losses of neutrons escaping the supercritical assembly.
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When a free neutron hits the nucleus of a fissile atom like uranium-235 ( 235U), the uranium nucleus splits into two smaller nuclei called fission fragments, plus more neutrons (for 235U three as often as two an average of 2.5 per fission). The following explanation uses rounded numbers and approximations. To understand how nuclear weapons are designed, it is useful to know the important similarities and differences between fission and fusion. In some ways, fission and fusion are opposite and complementary reactions, but the particulars are unique for each. Both reactions generate roughly a million times more energy than comparable chemical reactions, making nuclear bombs a million times more powerful than non-nuclear bombs, which a French patent claimed in May 1939. Nuclear fusion combines lighter atoms to form heavier atoms. Nuclear fission separates or splits heavier atoms to form lighter atoms.
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This sets in motion a sequence of events which results in a thermonuclear, or fusion, burn. Its detonation causes it to shine intensely with x-radiation, which illuminates and implodes the second stage filled with a large quantity of fusion fuel. The first stage is normally a boosted fission weapon as above (except for the earliest thermonuclear weapons, which used a pure fission weapon instead).
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Nuclear weapon designs are physical, chemical, and engineering arrangements that cause the physics package of a nuclear weapon to detonate. Pictured is the Gadget device being prepared for the first nuclear test, Trinity. The first nuclear explosive devices, cumbersome and inefficient, provided the basic design building blocks of all future weapons.