Hypocenter
A hypocenter or hypocentre (from
Generally, the terms ground zero and surface zero are also used in relation to epidemics, and other disasters to mark the point of the most severe damage or destruction. The term is distinguished from the term zero point in that the latter can also be located in the air, underground, or underwater.[2]
Trinity, Hiroshima and Nagasaki
The term "ground zero" originally referred to the hypocenter of the Trinity test in Jornada del Muerto desert near Socorro, New Mexico, and the atomic bombings of Hiroshima and Nagasaki in Japan. The United States Strategic Bombing Survey of the atomic attacks, released in June 1946, used the term liberally, defining it as:
For convenience, the term 'ground zero' will be used to designate the point on the ground directly beneath the point of detonation, or 'air zero.'[3]
The
The Pentagon
During the
World Trade Center
During the
Even after the site was cleaned up and construction on the new
In advance of the 10th anniversary of the attacks, New York City mayor Michael Bloomberg urged that the "ground zero" moniker be retired, saying, "…the time has come to call those 16 acres [6.5 hectares] what they are: The World Trade Center and the National September 11th Memorial and Museum."[7]
Meteor air bursts
The hypocenter of a meteor air burst, an asteroid or comet that explodes in the atmosphere rather than strike the surface, is the closest point on the surface to the explosion. The Tunguska event occurred in Siberia in 1908 and flattened an estimated 80 million trees over an area of 2,150 km2 (830 sq mi) of forest. The trees at the hypocenter of the blast were left standing, but all their limbs had been blown off by the shockwave. The 2013 Chelyabinsk meteor's hypocenter in Russia was more populated than that of Tunguska, resulting in civil damage and injury, mostly from flying glass shards from broken windows.[8]
Earthquakes
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Earthquakes |
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An earthquake's hypocenter is the position where the
The focal depth can be calculated from measurements based on seismic wave phenomena. As with all wave phenomena in physics, there is uncertainty in such measurements that grows with the wavelength so the focal depth of the source of these long-wavelength (low frequency) waves is difficult to determine exactly. Very strong earthquakes radiate a large fraction of their released energy in seismic waves with very long wavelengths and therefore a stronger earthquake involves the release of energy from a larger mass of rock.
Computing the hypocenters of foreshocks, main shock, and aftershocks of earthquakes allows the three-dimensional plotting of the fault along which movement is occurring.[9] The expanding wavefront from the earthquake's rupture propagates at a speed of several kilometers per second; this seismic wave is what is measured at various surface points in order to geometrically determine an initial guess as to the hypocenter. The wave reaches each station based upon how far away it was from the hypocenter. A number of things need to be taken into account, most importantly variations in the waves speed based upon the materials that it is passing through.[10] With adjustments for velocity changes, the initial estimate of the hypocenter is made, then a series of linear equations is set up, one for each station. The equations express the difference between the observed arrival times and those calculated from the initial estimated hypocenter. These equations are solved by the method of least squares which minimizes the sum of the squares of the differences between the observed and calculated arrival times, and a new estimated hypocenter is computed. The system iterates until the location is pinpointed within the margin of error for the velocity computations.[10]
See also
- List of meteor air bursts
- List of nuclear weapon explosion sites
- Tenet, a 2020 film that includes a sub-surface nuclear "hypocenter" in its storyline
References
- ^ a b c The hypocenter is the point within the earth where an earthquake rupture starts. The epicenter is the point directly above it at the surface of the Earth. Also commonly termed the focus. "Earthquake Glossary – hypocenter". United States Geological Survey. Archived from the original on 15 March 2010.
- ^ "U.S. DoD Terminology: zero point". Retrieved 28 November 2016.
- ^ U.S. Strategic Bombing Survey: The Effects of the Atomic Bombings of Hiroshima and Nagasaki Archived 2011-06-07 at the Wayback Machine. June 19, 1946. President's Secretary's File, Truman Papers. Page 5.
- ^ William L. Laurence, Dawn over Zero (London: Museum Press, 1947), 4.
- ^ a b "Pentagon Hot Dog Stand, Cold War Legend, to be Torn Down". United States Department of Defense. September 20, 2006. Archived from the original on 2015-09-24. Retrieved 2010-05-06.
'It's rumored that a portion of their (Soviet) nuclear arsenal was directed at that building, the Pentagon hot dog stand,' tour guides tell visitors as they pass the stand. 'This is where the building earned the nickname Cafe Ground Zero, the deadliest hot dog stand in the world.'
- Daily News (New York).
- ^ Geoghegan, Tom (2011-09-07). "Is it time to retire 'Ground zero'?". BBC. Retrieved 2011-09-10.
- ^ "Пострадавшую при падении метеорита перевезут из Челябинска в Москву". RIA (in Russian). 16 February 2013. Archived from the original on 15 February 2023. Retrieved 15 February 2023.
- ^ Kennelly, Patrick J.; Stickney, Michael C. (2000). "Using GIS for Visualizing Earthquake Epicenters, Hypocenters, Faults and Lineaments in Montana". Digital Mapping Techniques '00 -- Workshop Proceedings. United States Geological Survey. USGS Open-File Report 00-325. Archived from the original on 23 March 2004.
- ^ a b "FAQs - Measuring Earthquakes: Q: How do seismologists locate an earthquake?". USGS Earthquake Hazrads Program. United States Geological Survey. Archived from the original on 2012-03-11.
External links
- The dictionary definition of hypocenter at Wiktionary
- Media related to Hypocenters at Wikimedia Commons