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TNT equivalent
From Wikipedia, the free encyclopedia
TNT equivalent is a method of quantifying the energy released in explosions. The tonne of TNT is used as a unit of energy, approximately equivalent to the energy released in the detonation of this amount of TNT.
The kiloton and megaton of TNT have traditionally been used to rate the energy output, and hence destructive power, of nuclear weapons (see nuclear weapon yield). This unit is written into various nuclear weapon control treaties, and gives a sense of destructiveness as compared with ordinary explosives, like TNT. More recently, it has been used to describe the energy released in other highly destructive events, such as asteroid impacts.
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A gram of TNT releases 980–1100 calories upon explosion. To define the tonne of TNT, this was arbitrarily standardized to 1000 thermochemical calories = 1 gram TNT = 4184 J (exactly).[1]
This definition is a conventional one. Explosives' energy is normally calculated using the thermodynamic work energy of detonation, which for TNT has been accurately measured at 1120 calth/g from large numbers of air blast experiments and theoretically calculated to be 1160 calth/g.[2]
The measured pure heat output of a gram of TNT is only 651 thermochemical calories ≈ 2724 J,[3] but this is not the important value for explosive blast effect calculations.
| Grams TNT | Symbol | Tons TNT | Symbol | Energy |
|---|---|---|---|---|
| gram of TNT | g | microton of TNT | μT | 4.184×103 J |
| kilogram of TNT | kg | milliton of TNT | mT | 4.184×106 J |
| megagram of TNT | Mg | ton of TNT | t | 4.184×109 J |
| gigagram of TNT | Gg | kiloton of TNT | kt | 4.184×1012 J |
| teragram of TNT | Tg | megaton of TNT | Mt | 4.184×1015 J |
| petagram of TNT | Pg | gigaton of TNT | Gt | 4.184×1018 J |
- Conventional bunker buster bombs yield range from less than 1 ton to MOAB's 25 tonnes to the Russian Father of All Bombs 44 tons.
- The atomic bomb dropped on Hiroshima on August 6, 1945 exploded with an energy of about 15 kilotons of TNT (~6.3×1013 joules). The nuclear weapons currently in the arsenal of the United States range in yield from 0.3 kt to over 3 Mt TNT equivalent, as achieved by the Lockheed manufactured Trident II missile.
- During the Cold War, the United States developed hydrogen bombs with a maximum theoretical yield of 25 Mt; the Soviet Union developed a prototype weapon, nick-named the Tsar Bomba, which was tested at 50 Mt, but had a maximum theoretical yield of 100 Mt.[4] The actual destruction of such weapons can vary greatly depending on conditions, such as the altitude at which they are detonated, the nature of the target they are detonated against, and the physical features of the landscape where they are detonated.
- Megaquakes record huge MW values, or total energy released. The 2004 Indian Ocean Earthquake released 9,560 gigatons of TNT equivalent, but its ME (surface rupture energy, or potential for damage) was far smaller at 26.3 megatons of TNT. The largest quake ever, the 1960 Chilean quake, released MW almost 60,000 gigatons of TNT equivalent.
- On a much grander scale, supernova explosions give off about 1044 joules of energy, which is about ten octillion (1028) megatons of TNT.
By E = mc2, when 1 kilogram of antimatter annihilates with 1 kilogram of matter the reaction produces 1.8×1017 J, which is equal to 42.96 Mt.[5]
- ^ NIST Guide for the Use of the International System of Units (SI): Appendix B8 - Factors for Units Listed Alphabetically
- ^ Cooper, Paul. Explosives Engineering, New York: Wiley-VCH, 1996, pp 406.
- ^ "Physics for Future Presidents, a textbook", 2001-2002, Richard A. Muller, Chapter 1. Energy, Power, and Explosions
- ^ See Currently deployed U.S. nuclear weapon yields, Complete List of All U.S. Nuclear Weapons, Tsar Bomba, all from Carey Sublette's Nuclear Weapon Archive.
- ^ In antiproton annihilation, about 50% of this energy is carried off by effectively invisible neutrinos (see S.K. Borowski,Comparison of Fusion/Antiproton Propulsion systems); in contrast, almost 100% of electron-positron annihilation events emit their energy entirely as gamma rays.
- Guide for the Use of the International System of Units (SI)
- Nuclear Weapons FAQ Part 1.3
- Rhodes, Richard. The Making of the Atomic Bomb, New York: Simon and Schuster, 1986.
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