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(Redirected from Moderated nuclear explosion) "Nuclear blast" redirects here. For the record label, see Nuclear Blast. Explosion from fission or fusion reaction
A 23 kiloton tower shot called BADGER, fired on April 18, 1953, at the Nevada Test Site, as part of the Operation Upshot–Knothole nuclear test series.
The Greenhouse George test early fireball.
Upshot–Knothole Grable test (film)
Nuclear weapons
Photograph of a mock-up of the Little Boy nuclear weapon dropped on Hiroshima, Japan, in August 1945.
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A nuclear explosion is an explosion that occurs as a result of the rapid release of energy from a high-speed nuclear reaction. The driving reaction may be nuclear fission or nuclear fusion or a multi-stage cascading combination of the two, though to date all fusion-based weapons have used a fission device to initiate fusion, and a pure fusion weapon remains a hypothetical device. Nuclear explosions are used in nuclear weapons and nuclear testing.

Nuclear explosions are extremely destructive compared to conventional (chemical) explosives, because of the vastly greater energy density of nuclear fuel compared to chemical explosives. They are often associated with mushroom clouds, since any large atmospheric explosion can create such a cloud. Nuclear explosions produce high levels of ionizing radiation and radioactive debris that is harmful to humans and can cause moderate to severe skin burns, eye damage, radiation sickness, radiation-induced cancer and possible death depending on how far a person is from the blast radius. Nuclear explosions can also have detrimental effects on the climate, lasting from months to years. A small-scale nuclear war could release enough particles into the atmosphere to cause the planet to cool and cause crops, animals, and agriculture to disappear across the globe—an effect named nuclear winter.

History

Main articles: Nuclear weapons testing, List of nuclear weapons tests, and History of nuclear weapons

The beginning (fission explosions)

The first manmade nuclear explosion occurred on July 16, 1945, at 5:50 am on the Trinity test site near Alamogordo, New Mexico, in the United States, an area now known as the White Sands Missile Range. The event involved the full-scale testing of an implosion-type fission atomic bomb. In a memorandum to the U.S. Secretary of War, General Leslie Groves describes the yield as equivalent to 15,000 to 20,000 tons of TNT. Following this test, a uranium-gun type nuclear bomb (Little Boy) was dropped on the Japanese city of Hiroshima on August 6, 1945, with a blast yield of 15 kilotons; and a plutonium implosion-type bomb (Fat Man) on Nagasaki on August 9, 1945, with a blast yield of 21 kilotons. Fat Man and Little Boy are the only instances in history of nuclear weapons being used as an act of war.

On August 29, 1949, the USSR became the second country to successfully test a nuclear weapon. RDS-1, dubbed "First Lightning" by the Soviets and "Joe-1" by the US, produced a 20 kiloton explosion and was essentially a copy of the American Fat Man plutonium implosion design.

Thermonuclear Era (fusion explosions)

The United States' first thermonuclear weapon, Ivy Mike, was detonated on 1 November 1952 at Enewetak Atoll and yielded 10 Megatons of explosive force. The first thermonuclear weapon tested by the USSR, RDS-6s (Joe-4), was detonated on August 12, 1953, at the Semipalatinsk Test Site in Kazakhstan and yielded about 400 kilotons. RDS-6s' design, nicknamed the Sloika, was remarkably similar to a version designed for the U.S. by Edward Teller nicknamed the "Alarm Clock", in that the nuclear device was a two-stage weapon: the first explosion was triggered by fission and the second more powerful explosion by fusion. The Sloika core consisted of a series of concentric spheres with alternating materials to help boost the explosive yield.

Proliferation Era

In the years following World War II, eight countries have conducted nuclear tests with 2475 devices fired in 2120 tests. In 1963, the United States, Soviet Union, and United Kingdom signed the Limited Test Ban Treaty, pledging to refrain from testing nuclear weapons in the atmosphere, underwater, or in outer space. The treaty permitted underground tests. Many other non-nuclear nations acceded to the Treaty following its entry into force; however, France and China (both nuclear weapons states) have not.

The primary application to date has been military (i.e. nuclear weapons), and the remainder of explosions include the following:

Nuclear weapons

Main articles: Nuclear weapons and History of nuclear weapons

Two nuclear weapons have been deployed in combat—both by the United States against Japan in World War II. The first event occurred on the morning of 6 August 1945, when the United States Army Air Forces dropped a uranium gun-type device, code-named "Little Boy", on the city of Hiroshima, killing 70,000 people, including 20,000 Japanese combatants and 20,000 Korean slave laborers. The second event occurred three days later when the United States Army Air Forces dropped a plutonium implosion-type device, code-named "Fat Man", on the city of Nagasaki. It killed 39,000 people, including 27,778 Japanese munitions employees, 2,000 Korean slave laborers, and 150 Japanese combatants. In total, around 109,000 people were killed in these bombings. Nuclear weapons are largely seen as a 'deterrent' by most governments; the sheer scale of the destruction caused by nuclear weapons has discouraged their use in warfare.

Nuclear testing

Main articles: Nuclear testing and List of nuclear weapons tests

Since the Trinity test and excluding combat use, countries with nuclear weapons have detonated roughly 1,700 nuclear explosions, all but six as tests. Of these, six were peaceful nuclear explosions. Nuclear tests are experiments carried out to determine the effectiveness, yield and explosive capability of nuclear weapons. Throughout the 20th century, most nations that have developed nuclear weapons had a staged test of them. Testing nuclear weapons can yield information about how the weapons work, as well as how the weapons behave under various conditions and how structures behave when subjected to a nuclear explosion. Additionally, nuclear testing has often been used as an indicator of scientific and military strength, and many tests have been overtly political in their intention; most nuclear weapons states publicly declared their nuclear status by means of a nuclear test. Nuclear tests have taken place at more than 60 locations across the world; some in secluded areas and others more densely populated. Detonation of nuclear weapons (in a test or during war) releases radioactive fallout that concerned the public in the 1950s. This led to the Limited Test Ban Treaty of 1963 signed by the United States, Great Britain, and the Soviet Union. This treaty banned nuclear weapons testing in the atmosphere, outer space, and under water.

Effects of nuclear explosions

Main article: Effects of nuclear explosions

Shockwaves and radiation

The dominant effect of a nuclear weapon (the blast and thermal radiation) are the same physical damage mechanisms as conventional explosives, but the energy produced by a nuclear explosive is millions of times more per gram and the temperatures reached are in the tens of megakelvin. Nuclear weapons are quite different from conventional weapons because of the huge amount of explosive energy that they can put out and the different kinds of effects they make, like high temperatures and ionizing radiation.

The devastating impact of the explosion does not stop after the initial blast, as with conventional explosives. A cloud of nuclear radiation travels from the hypocenter of the explosion, causing an impact to life forms even after the heat waves have ceased. The health effects on humans from nuclear explosions comes from the initial shockwave, the radiation exposure, and the fallout. The initial shockwave and radiation exposure come from the immediate blast which has different effects on the health of humans depending on the distance from the center of the blast. The shockwave can rupture eardrums and lungs, can also throw people back, and cause buildings to collapse. Radiation exposure is delivered at the initial blast and can continue for an extended amount of time in the form of nuclear fallout. The main health effect of nuclear fallout is cancer and birth defects because radiation causes changes in cells that can either kill or make them abnormal. Any nuclear explosion (or nuclear war) would have wide-ranging, long-term, catastrophic effects. Radioactive contamination would cause genetic mutations and cancer across many generations.

Nuclear winter

Another potential devastating effect of nuclear war is termed nuclear winter. The idea became popularized in mainstream culture during the 1980s, when Richard P. Turco, Owen Toon, Thomas P. Ackerman, James B. Pollack and Carl Sagan collaborated and produced a scientific study which suggested the Earth's weather and climate can be severely impacted by nuclear war. The main idea is that once a conflict begins and the aggressors start detonating nuclear weapons, the explosions will eject small particles from the Earth's surface into the atmosphere as well as nuclear particles. It's also assumed that fires will break out and become widespread, similar to what happened at Hiroshima and Nagasaki during the end of WWII, which will cause soot and other harmful particles to also be introduced into the atmosphere. Once these harmful particles are lofted, strong upper-level winds in the troposphere can transport them thousands of kilometers and can end up transporting nuclear fallout and also alter the Earth's radiation budget. Once enough small particles are in the atmosphere, they can act as cloud condensation nuclei which will cause global cloud coverage to increase which in turn blocks incoming solar insolation and starts a global cooling period. This is not unlike one of the leading theories about the extinction of most dinosaur species, in that a large explosion ejected small particulate matter into the atmosphere and resulted in a global catastrophe characterized by cooler temperatures, acid rain, and the KT Layer.

See also

References

  1. "CDC Radiation Emergencies | Frequently Asked Questions About a Nuclear Blast". www.cdc.gov. 2019-04-22. Retrieved 2021-04-29.
  2. Rubinson, Paul (2014-01-02). "The global effects of nuclear winter: science and antinuclear protest in the United States and the Soviet Union during the 1980s". Cold War History. 14 (1): 47–69. doi:10.1080/14682745.2012.759560. ISSN 1468-2745. S2CID 153883165.
  3. U.S. Department of Energy. "Trinity Site - World's First Nuclear Explosion". Energy.gov Office of Management. Retrieved 23 December 2016.
  4. Taylor, Alan (July 16, 2015). "70 Years Since Trinity: The Day the Nuclear Age Began". The Atlantic. Retrieved 23 December 2016.
  5. Groves, General Leslie (July 18, 1945). "The First Nuclear Test in New Mexico: Memorandum for the Secretary of War, Subject: The Test". United States War Department. PBS.org. Retrieved 23 December 2016.
  6. "VENONA Dated Documents". www.nsa.gov. Retrieved 2021-04-30.
  7. "The Soviet Nuclear Weapons Program". nuclearweaponarchive.org. Retrieved 2021-04-30.
  8. Yang, Xiaoping; North, Robert; Romney, Carl; Richards, Paul G. (August 2000), Worldwide Nuclear Explosions (PDF), retrieved 2013-12-31
  9. "The legacy of nuclear testing". ICAN. Retrieved 2021-04-29.
  10. "Our Documents - Test Ban Treaty (1963)". www.ourdocuments.gov. 9 April 2021. Retrieved 2021-04-29.
  11. Effects of Nuclear Earth-Penetrator and Other Weapons. 2005-09-06. doi:10.17226/11282. ISBN 978-0-309-09673-7.
  12. "Effects to the Human Body From Nuclear Fallout". large.stanford.edu. Retrieved 2021-04-29.
  13. Malcolm Fraser and Tilman Ruff. 2015 is the year to ban nuclear weapons, The Age, February 19, 2015.
  14. Turco, R. P.; Toon, O. B.; Ackerman, T. P.; Pollack, J. B.; Sagan, Carl (1983-12-23). "Nuclear Winter: Global Consequences of Multiple Nuclear Explosions". Science. 222 (4630): 1283–1292. Bibcode:1983Sci...222.1283T. doi:10.1126/science.222.4630.1283. ISSN 0036-8075. PMID 17773320. S2CID 45515251.
  15. "Radiation Dose Reconstruction: U.S. Occupation Forces In Hiroshima and Nagasaki, Japan, 1945-1946" (PDF). 2006-06-24. Archived from the original (PDF) on 2006-06-24. Retrieved 2021-04-30.
  16. "The KT extinction". ucmp.berkeley.edu. Retrieved 2021-04-30.

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