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"This part-animated film includes an explanation of nuclear physics; footage of atmospheric and underground testing; and a bomber making a crash landing."
US Air Force film SFP-624
Public domain film from the
Library of Congress Prelinger Archive, slightly cropped to remove uneven edges, with the aspect ratio corrected, and mild video noise reduction applied.
The soundtrack was also processed with volume normalization, noise reduction, clipping reduction, and/or equalization (the resulting sound, though not perfect, is far less noisy than the original).
http://en.wikipedia.org/wiki/Nuclear_weapon
A nuclear weapon is an explosive device that derives its destructive force from nuclear reactions, either fission or a combination of fission and fusion. Both reactions release vast quantities of energy from relatively small amounts of matter. The first fission ("atomic") bomb test released the same amount of energy as approximately 20,
000 tons of
TNT. The first thermonuclear ("hydrogen") bomb test released the same amount of energy as approximately
10,000,000 tons of TNT.
A modern thermonuclear weapon weighing little more than 2,400 pounds (1,
100 kg) can produce an explosive force comparable to the detonation of more than
1.2 million tons (
1.1 million tonnes) of TNT.[2] Thus, even a small nuclear device no larger than traditional bombs can devastate an entire city by blast, fire and radiation.
Nuclear weapons are considered weapons of mass destruction, and their use and control have been a major focus of international relations policy since their debut.
Only two nuclear weapons have been used in the course of warfare, both by the
United States near the end of
World War II. On 6
August 1945, a uranium gun-type fission bomb code-named "
Little Boy" was detonated over the
Japanese city of
Hiroshima.
Three days later, on 9 August, a plutonium implosion-type fission bomb code-named "
Fat Man" was exploded over
Nagasaki, Japan. These two bombings resulted in the deaths of approximately
200,000
Japanese people—mostly civilians—from acute injuries sustained from the explosions. The role of the bombings in
Japan's surrender, and their ethical status, remain the subject of scholarly and popular debate.
Since the bombings of
Hiroshima and Nagasaki, nuclear weapons have been detonated on over two thousand occasions for testing purposes and demonstrations. Only a few nations possess such weapons or are suspected of seeking them. The only countries known to have detonated nuclear weapons—and that acknowledge possessing such weapons—are (chronologically by date of first test) the United States, the
Soviet Union (succeeded as a nuclear power by
Russia), the
United Kingdom,
France, the
People's Republic of China,
India, Pakistan, and
North Korea. In addition,
Israel is also widely believed to possess nuclear weapons, though it does not acknowledge having them. One state,
South Africa, fabricated nuclear weapons in the past, but has since disassembled their arsenal and submitted to international safeguards.
The Federation of
American Scientists estimates there are more than 19,000 nuclear warheads in the world as of
2012, with around 4,400 of them kept in "operational" status, ready for potential use
...
Fission weapons
All existing nuclear weapons derive some of their explosive energy from nuclear fission reactions.
Weapons whose explosive output is exclusively from fission reactions are commonly referred to as atomic bombs or atom bombs (abbreviated as
A-bombs). This has long been noted as something of a misnomer, as their energy comes from the nucleus of the atom.
In fission weapons, a mass of fissile material (enriched uranium or plutonium) is assembled into a supercritical mass—the amount of material needed to start an exponentially growing nuclear chain reaction—either by shooting one piece of sub-critical material into another (the "gun" method) or by compressing a sub-critical sphere of material using chemical explosives to many times its original density (the "implosion" method)...
A major challenge in all nuclear weapon designs is to ensure that a significant fraction of the fuel is consumed before the weapon destroys itself...
Fusion weapons
The other basic type of nuclear weapon produces a large proportion of its energy in nuclear fusion reactions. Such fusion weapons are generally referred to as thermonuclear weapons or more colloquially as hydrogen bombs (abbreviated as
H-bombs), as they rely on fusion reactions between isotopes of hydrogen (deuterium and tritium). All such weapons derive a significant portion, and sometimes a majority, of their energy from fission. This is because a fission weapon is required as a "trigger" for the fusion reactions, and the fusion reactions can themselves trigger additional fission reactions...
- published: 12 Aug 2012
- views: 2100