Early ICBMs had limited precision, which made them suitable for use only against the largest targets, such as cities. They were seen as a "safe" basing option, one that would keep the deterrent force close to home where it would be difficult to attack. Attacks against military targets (especially hardened ones) demanded the use of a more precise, crewed bomber. Second- and third-generation designs (such as the LGM-118 Peacekeeper) dramatically improved accuracy to the point where even the smallest point targets can be successfully attacked.
The first practical design for an ICBM grew out of Nazi Germany's V-2 rocket program. The liquid-fueled V-2, designed by Wernher von Braun and his team, was then widely used by Nazi Germany from mid-1944 until March 1945 to bomb British and Belgian cities, particularly Antwerp and London.
Under Projekt Amerika, von Braun's team developed the A9/10 ICBM, intended for use in bombing New York and other American cities. Initially intended to be guided by radio, it was changed to be a piloted craft after the failure of Operation Elster. The second stage of the A9/A10 rocket was tested a few times in January and February 1945.
After the war, the US executed Operation Paperclip, which took von Braun and hundreds of other leading Nazi scientists to the United States to develop IRBMs, ICBMs, and launchers for the US Army.
This technology was predicted by US General of the Army Hap Arnold, who wrote in 1943:
Someday, not too distant, there can come streaking out of somewhere – we won't be able to hear it, it will come so fast – some kind of gadget with an explosive so powerful that one projectile will be able to wipe out completely this city of Washington.[2][3]
Cold War
After World War II, the Americans and the Soviets started rocket research programs based on the V-2 and other German wartime designs. Each branch of the US military started its own programs, leading to considerable duplication of effort. In the Soviet Union, rocket research was centrally organized although several teams worked on different designs.
In the Soviet Union, early development was focused on missiles able to attack European targets. That changed in 1953, when Sergei Korolyov was directed to start development of a true ICBM able to deliver newly developed hydrogen bombs. Given steady funding throughout, the R-7 developed with some speed. The first launch took place on 15 May 1957 and led to an unintended crash 400 km (250 mi) from the site. The first successful test followed on 21 August 1957; the R-7 flew over 6,000 km (3,700 mi) and became the world's first ICBM.[4] The first strategic-missile unit became operational on 9 February 1959 at Plesetsk in north-west Russia.[5]
The US initiated ICBM research in 1946 with the RTV-A-2 Hiroc project. This was a three-stage effort with the ICBM development not starting until the third stage. However, funding was cut in 1948 after only three partially successful launches of the second stage design, that was used to test variations of the V-2 design. With overwhelming air superiority and truly intercontinental bombers, the newly formed US Air Force did not take the problem of ICBM development seriously. Things changed in 1953 with the Soviet testing of their firstthermonuclear weapon, but it was not until 1954 that the Atlas missile program was given the highest national priority. The Atlas A first flew on 11 June 1957; the flight lasted only about 24 seconds before the rocket exploded. The first successful flight of an Atlas missile to full range occurred 28 November 1958.[6] The first armed version of the Atlas, the Atlas D, was declared operational in January 1959 at Vandenberg, although it had not yet flown. The first test flight was carried out on 9 July 1959,[7] and the missile was accepted for service on 1 September. The Titan I was another US multistage ICBM, with a successful launch February 5, 1959, with Titan I A3. Unlike the Atlas, the Titan I was a two-stage missile, rather than three. The Titan was larger, yet lighter, than the Atlas. Due to the improvements in engine technology and guidance systems the Titan I overtook the Atlas.[8]
The R-7 and Atlas each required a large launch facility, making them vulnerable to attack, and could not be kept in a ready state. Failure rates were very high throughout the early years of ICBM technology. Human spaceflight programs (Vostok, Mercury, Voskhod, Gemini, etc.) served as a highly visible means of demonstrating confidence in reliability, with successes translating directly to national defense implications. The US was well behind the Soviets in the Space Race and so US President John F. Kennedy increased the stakes with the Apollo program, which used Saturn rocket technology that had been funded by President Dwight D. Eisenhower.
These early ICBMs also formed the basis of many space launch systems. Examples include R-7, Atlas, Redstone, Titan, and Proton, which was derived from the earlier ICBMs but never deployed as an ICBM. The Eisenhower administration supported the development of solid-fueled missiles such as the LGM-30 Minuteman, Polaris and Skybolt. Modern ICBMs tend to be smaller than their ancestors, due to increased accuracy and smaller and lighter warheads, and use solid fuels, making them less useful as orbital launch vehicles.
The Western view of the deployment of these systems was governed by the strategic theory of mutual assured destruction. In the 1950s and 1960s, development began on anti-ballistic missile systems by both the Americans and Soviets. Such systems were restricted by the 1972 Anti-Ballistic Missile Treaty. The first successful ABM test was conducted by the Soviets in 1961, which later deployed a fully operational system defending Moscow in the 1970s (see Moscow ABM system).
The 1972 SALT treaty froze the number of ICBM launchers of both the Americans and the Soviets at existing levels and allowed new submarine-based SLBM launchers only if an equal number of land-based ICBM launchers were dismantled. Subsequent talks, called SALT II, were held from 1972 to 1979 and actually reduced the number of nuclear warheads held by the US and Soviets. SALT II was never ratified by the US Senate, but its terms were honored by both sides until 1986, when the Reagan administration "withdrew" after it had accused the Soviets of violating the pact.
China developed a minimal independent nuclear deterrent entering its own cold war after an ideological split with the Soviet Union beginning in the early 1960s. After first testing a domestic built nuclear weapon in 1964, it went on to develop various warheads and missiles. Beginning in the early 1970s, the liquid fuelled DF-5 ICBM was developed and used as a satellite launch vehicle in 1975. The DF-5, with a range of 10,000 to 12,000 km (6,200 to 7,500 mi)—long enough to strike the Western United States and the Soviet Union—was silo deployed, with the first pair in service by 1981 and possibly twenty missiles in service by the late 1990s.[9] China also deployed the JL-1Medium-range ballistic missile with a reach of 1,700 kilometres (1,100 mi) aboard the ultimately unsuccessful type 92 submarine.[10]
Post–Cold War
In 1991, the United States and the Soviet Union agreed in the START I treaty to reduce their deployed ICBMs and attributed warheads.
As of 2016[update], all five of the nations with permanent seats on the United Nations Security Council have fully operational long-range ballistic missile systems; Russia, the United States, and China also have land-based ICBMs (the US missiles are silo-based, while China and Russia have both silo and road-mobile (DF-31, RT-2PM2 Topol-M missiles).
Israel is believed to have deployed a road mobile nuclear ICBM, the Jericho III, which entered service in 2008; an upgraded version is in development.[11][12]
India successfully test fired Agni V, with a strike range of more than 5,000 km (3,100 mi) on 19 April 2012, claiming entry into the ICBM club.[13] The missile's actual range is speculated by foreign researchers to be up to 8,000 km (5,000 mi) with India having downplayed its capabilities to avoid causing concern to other countries.[14] On 15 December 2022, first night trial of Agni-V was successfully carried out by SFC from Abdul Kalam Island, Odisha. The missile is now 20 percent lighter because the use of composite materials rather than steel material. The range has been increased to 7,000 km.[15]
By 2012 there was speculation by some intelligence agencies that North Korea is developing an ICBM.[16] North Korea successfully put a satellite into space on 12 December 2012 using the 32-metre-tall (105 ft) Unha-3 rocket. The United States claimed that the launch was in fact a way to test an ICBM.[17] (See Timeline of first orbital launches by country.) In early July 2017, North Korea claimed for the first time to have tested successfully an ICBM capable of carrying a large thermonuclear warhead.
In July 2014, China announced the development of its newest generation of ICBM, the Dongfeng-41 (DF-41), which has a range of 12,000 kilometres (7,500 miles), capable of reaching the United States, and which analysts believe is capable of being outfitted with MIRV technology.[18]
Most countries in the early stages of developing ICBMs have used liquid propellants, with the known exceptions being the IndianAgni-V, the planned but cancelled[19] South African RSA-4 ICBM, and the now in service Israeli Jericho III.[20]
In July 2023, North Korea fired a suspected intercontinental ballistic missile that was expected to land short of Japanese waters. The launch follows North Korea's threat to retaliate against the US for alleged spy plane incursions.[26]
Flight phases
The following flight phases can be distinguished:[27][28]
Boost phase, which can last from 3 to 5 minutes. It is shorter for a solid-fuel rocket than for a liquid-propellant rocket. Depending on the trajectory chosen, typical burnout speed is 4 km/s (2.5 mi/s), up to 7.8 km/s (4.8 mi/s). The altitude of the missile at the end of this phase is typically 150 to 400 km (93 to 249 mi).
Midcourse phase, which lasts approx. 25 minutes, is sub-orbital spaceflight with the flightpath being a part of an ellipse with a vertical major axis. The apogee (halfway through the midcourse phase) is at an altitude of approximately 1,200 km (750 mi). The semi-major axis is between 3,186 and 6,372 km (1,980 and 3,959 mi) and the projection of the flightpath on the Earth's surface is close to a great circle, though slightly displaced due to earth rotation during the time of flight. In this phase, the missile may release several independent warheads and penetration aids, such as metallic-coated balloons, aluminum chaff, and full-scale warhead decoys.
Reentry/Terminal phase, which lasts two minutes starting at an altitude of 100 km; 62 mi. At the end of this phase, the missile's payload will impact the target, with impact at a speed of up to 7 km/s (4.3 mi/s) (for early ICBMs less than 1 km/s (0.62 mi/s)); see also maneuverable reentry vehicle.
ICBMs usually use the trajectory which optimizes range for a given amount of payload (the minimum-energy trajectory); an alternative is a depressed trajectory, which allows less payload, shorter flight time, and has a much lower apogee.[29]
Modern ICBMs typically carry multiple independently targetable reentry vehicles (MIRVs), each of which carries a separate nuclearwarhead, allowing a single missile to hit multiple targets. MIRV was an outgrowth of the rapidly shrinking size and weight of modern warheads and the Strategic Arms Limitation Treaties (SALT I and SALT II), which imposed limitations on the number of launch vehicles. It has also proved to be an "easy answer" to proposed deployments of anti-ballistic missile (ABM) systems: It is far less expensive to add more warheads to an existing missile system than to build an ABM system capable of shooting down the additional warheads; hence, most ABM system proposals have been judged to be impractical. The first operational ABM systems were deployed in the United States during the 1970s. The Safeguard ABM facility, located in North Dakota, was operational from 1975 to 1976. The Soviets deployed their ABM-1 Galosh system around Moscow in the 1970s, which remains in service. Israel deployed a national ABM system based on the Arrow missile in 1998,[30] but it is mainly designed to intercept shorter-ranged theater ballistic missiles, not ICBMs. The Alaska-based United States national missile defense system attained initial operational capability in 2004.[31]
ICBMs can be deployed from multiple platforms:
In missile silos, which offer some protection from military attack (including, the designers hope, some protection from a nuclear first strike)
On heavy trucks: this applies to one version of the Topol which may be deployed from a self-propelled mobile launcher, capable of moving through roadless terrain, and launching a missile from any point along its route
The last three kinds are mobile and therefore hard to detect prior to a missile launch.
During storage, one of the most important features of the missile is its serviceability. One of the key features of the first computer-controlled ICBM, the Minuteman missile, was that it could quickly and easily use its computer to test itself.
After launch, a booster pushes the missile and then falls away. Most modern boosters are Solid-propellant rocket motors, which can be stored easily for long periods of time. Early missiles used liquid-fueled rocket motors. Many liquid-fueled ICBMs could not be kept fueled at all times as the cryogenic fuelliquid oxygen boiled off and caused ice formation, and therefore fueling the rocket was necessary before launch. This procedure was a source of significant operational delay and might allow the missiles to be destroyed by enemy counterparts before they could be used. To resolve this problem Nazi Germany invented the missile silo that protected the missile from Strategic Bombing and also hid fueling operations underground.[citation needed]
Although the USSR/Russia preferred ICBM designs, that use hypergolic liquid fuels, which can be stored at room temperature for more than a few years.
Once the booster falls away, the remaining "bus" releases several warheads, each of which continues on its own unpowered ballistic trajectory, much like an artillery shell or cannonball. The warhead is encased in a cone-shaped reentry vehicle and is difficult to detect in this phase of flight as there is no rocket exhaust or other emissions to mark its position to defenders. The high speeds of the warheads make them difficult to intercept and allow for little warning, striking targets many thousands of kilometers away from the launch site (and due to the possible locations of the submarines: anywhere in the world) within approximately 30 minutes.[citation needed]
As the nuclear warhead reenters the Earth's atmosphere, its high-speed causes compression of the air, leading to a dramatic rise in temperature which would destroy it, if it were not shielded in some way. In one design, warhead components are contained within an aluminium honeycomb substructure, sheathed in a pyrolytic carbon-epoxysynthetic resincomposite material heat shield.[citation needed] Warheads are also often radiation-hardened (to protect against nuclear armed ABMs or the nearby detonation of friendly warheads), one neutron-resistant material developed for this purpose in the UK is three-dimensional quartz phenolic.[citation needed]
Circular error probable is crucial, because halving the circular error probable decreases the needed warhead energy by a factor of four. Accuracy is limited by the accuracy of the navigation system and the available geodetic information.
Strategic missile systems are thought to use custom integrated circuits designed to calculate navigationaldifferential equations thousands to millions of FLOPS in order to reduce navigational errors caused by calculation alone. These circuits are usually a network of binary addition circuits that continually recalculate the missile's position. The inputs to the navigation circuit are set by a general-purpose computer according to a navigational input schedule loaded into the missile before launch.
One particular weapon developed by the Soviet Union – the Fractional Orbital Bombardment System – had a partial orbital trajectory, and unlike most ICBMs its target could not be deduced from its orbital flight path. It was decommissioned in compliance with arms control agreements, which address the maximum range of ICBMs and prohibit orbital or fractional-orbital weapons. However, according to reports,[who?] Russia is working on the new Sarmat ICBM which leverages Fractional Orbital Bombardment concepts to use a Southern polar approach instead of flying over the northern polar regions.[citation needed] Using that approach, it is theorized, avoids the American missile defense batteries in California and Alaska.
New development of ICBM technology are ICBMs able to carry hypersonic glide vehicles as a payload such as RS-28 Sarmat.
In March 12 2024 India announced that it had joined a very limited group of countries, which are capable of firing multiple warheads on a single ICBM. The announcement came after successfully testing multiple independently targetable reentry vehicle (MIRV) technology.[32]
Russia, the United States, China, North Korea, India and Israel are the only countries currently known to possess land-based ICBMs.[33][34]
The United States currently operates 405 ICBMs in three USAF bases.[35] The only model deployed is LGM-30G Minuteman-III. All previous USAF Minuteman II missiles were destroyed in accordance with START II, and their launch silos have been sealed or sold to the public. The powerful MIRV-capable Peacekeeper missiles were phased out in 2005.[36]
China has developed several long-range ICBMs, like the DF-31. The Dongfeng 5 or DF-5 is a 3-stage liquid fuel ICBM and has an estimated range of 13,000 kilometers. The DF-5 had its first flight in 1971 and was in operational service 10 years later. One of the downsides of the missile was that it took between 30 and 60 minutes to fuel. The Dong Feng 31 (a.k.a. CSS-10) is a medium-range, three-stage, solid-propellant intercontinental ballistic missile, and is a land-based variant of the submarine-launched JL-2.
The DF-41 or CSS-X-10 can carry up to 10 nuclear warheads, which are MIRVs and has a range of approximately 12,000–14,000 km (7,500–8,700 mi).[38][39][40] The DF-41 deployed underground in Xinjiang, Qinghai, Gansu and Inner Mongolia. The mysterious underground subway ICBM carrier systems are called the "Underground Great Wall Project".[41]
Israel is believed to have deployed a road mobile nuclear ICBM, the Jericho III, which entered service in 2008. It is possible for the missile to be equipped with a single 750 kg (1,650 lb) nuclear warhead or up to three MIRV warheads. It is believed to be based on the Shavit space launch vehicle and is estimated to have a range of 4,800 to 11,500 km (3,000 to 7,100 mi).[11] In November 2011 Israel tested an ICBM believed to be an upgraded version of the Jericho III.[12]
India has a series of ballistic missiles called Agni. On 19 April 2012, India successfully test fired its first Agni-V, a three-stage solid fueled missile, with a strike range of more than 7,500 km (4,700 mi). Missile was test-fired for the second time on 15 September 2013.[13] On 31 January 2015, India conducted a third successful test flight of the Agni-V from the Abdul Kalam Island facility. The test used a canisterised version of the missile, mounted over a Tata truck.[42] On 15 December 2022, first night trial of Agni-V was successfully carried out by SFC from Abdul Kalam Island, Odisha. The missile is now 20 percent lighter because the use of composite materials rather than steel material. The range has been increased to 7,000 km.[15]
An anti-ballistic missile is a missile which can be deployed to counter an incoming nuclear or non-nuclear ICBM. ICBMs can be intercepted in three regions of their trajectory: boost phase, mid-course phase or terminal phase. The United States, Russia, India, France, Israel, and China[45] have now developed anti-ballistic missile systems, of which the Russian A-135 anti-ballistic missile system, the American Ground-Based Midcourse Defense, the Indian Prithvi Defence Vehicle Mark-II and the Israeli Arrow 3 are the only systems having the capability to intercept and shoot down ICBMs carrying nuclear, chemical, biological, or conventional warheads.
^Science & Global Security, 1992, Volume 3, pp. 101–159 Depressed Trajectory SLBMs: A Technical Evaluation and Arms Control Possibilities [1]Archived 18 March 2013 at the Wayback Machine
^Podvig, Pavel (13 December 2007). "Strategic Rocket Forces". Russian Strategic Nuclear Forces. Archived from the original on 14 May 2011. Retrieved 20 February 2018.
Cavidad pericárdica Imagen de la pared del corazón en la que se señalan las diferentes capas que la forman y la cavidad pericárdica.Nombre y clasificaciónLatín [TA]: cavitas pericardiacaTA A07.1.03.001 [editar datos en Wikidata] En anatomía, la cavidad pericárdica es el espacio que queda entre la hoja visceral del pericardio y la hoja parietal de este mismo.[1] Se encuentra revestida por el mesotelio de ambas hojas. En su interior se aloja el líquido pericárdico (15-50…
Luis Montes Datos personalesNombre completo Luis Arturo Montes JiménezApodo(s) Chapo, German Duende[1]Nacimiento Ciudad Juárez, México15 de mayo de 1986 (37 años)Nacionalidad(es) mexicanaAltura 1,66 m (5′ 5″)Peso 66 kg (145 lb)Carrera deportivaDeporte FútbolClub profesionalDebut deportivo 8 de enero de 2006(C. F. Indios)Club EvertonLiga Primera División de ChilePosición MediocampistaDorsal(es) 10Goles en clubes 67Selección nacionalSelección MéxicoDebut 17…
Casa de Samuel Lawson DowlingRegistro Nacional de Lugares Históricos UbicaciónCoordenadas 31°27′25″N 85°38′30″O / 31.45694444, -85.64166667Ubicación Ozark, Condado de Dale AlabamaDatos generalesSuperficie Menos de 1 acreConstruido 1852Agregado al NRHP 30 de mayo de 1996Núm. de referencia 96000594[editar datos en Wikidata] La Casa de Samuel Lawson Dowling es una residencia histórica ubicada en Ozark, Alabama, Estados Unidos.[1] Historia La casa…
Richard Morton Información personalNacimiento 1637 Worcestershire (Reino Unido) Fallecimiento 1698 Londres (Reino de Inglaterra) Nacionalidad BritánicaInformación profesionalOcupación Biólogo y médico [editar datos en Wikidata] Para el baloncestista estadounidense, véase Richard Morton (baloncestista). Richard Morton (1637-1698) fue un médico inglés conocido por ser el primero en describir los tubérculos pulmonares presentes en algunas variantes de la tuberculosis. En el sigl…
Official state recognition A map showing the states with official state horses marked in red and those with proposed designations marked in yellow Twelve U.S. states have designated a horse breed as the official state horse, two have a horse breed as their state animal, one has an official state pony, and one has a honorary state equine. The first state horse was designated in Vermont in 1961. The most recent state horse designations occurred in 2023 when Virginia designated the Chincoteague Pon…
Artikel ini hampir seluruhnya merupakan ringkasan alur. Artikel ini harus diperluas untuk menyediakan cakupan konteks dunia nyata yang lebih seimbang. Please edit the article to focus on discussing the work rather than merely reiterating the plot. (Pelajari cara dan kapan saatnya untuk menghapus pesan templat ini) Pocong Kamar SebelahSutradara Nayato Fio Nuala Produser Zainal Susanto Se Ditulis oleh Farah Mandala PemeranRahma AzhariAndrew Ralph RoxburghReza PahleviPenata musikAgus Triwahyu…
Lillian Shaw Lillian Shaw en Nueva York en 1939, retratada por Sol Horn.[1]Información personalFallecimiento Siglo XX Residencia Nueva YorkNacionalidad Estados UnidosInformación profesionalÁrea Escultura[editar datos en Wikidata] Lillian Shaw fue una escultora estadounidense. Al igual que Margaret Marshall, destacó por el tratamiento de terminación con pátinas de color, un delicado proceso de acabado aplicado en figuras de yeso para darles el aspecto de bronce, terracota y…
التصميم العظيم The Grand Design غلاف الكتاب اللغة الإنكليزية معلومات الكتاب المؤلف ستيفن هوكنغ وليوناردو ملودينو البلد الولايات المتحدة اللغة الانجليزية الناشر بانتام بوكس تاريخ النشر 7 سبتمبر 2010 مكان النشر نيويورك النوع الأدبي أدب علمي مبسَّط الموضوع علم التقديم نوع ا…
Artikel ini sebatang kara, artinya tidak ada artikel lain yang memiliki pranala balik ke halaman ini.Bantulah menambah pranala ke artikel ini dari artikel yang berhubungan atau coba peralatan pencari pranala.Tag ini diberikan pada Oktober 2022. Anangeon (Yunani: ἀναγκαῖον, kebutuhan),[1] juga dikenal sebagai dicaeologia (δικαιολογία, berdalih untuk pembelaan),[2] adalah metode argumen hipokrit, dengan dasar pada keniscayaan atau kebutuhan.[butuh rujukan&…
1956 single by The Jay HawksStranded in the JungleSingle by The Jay HawksB-sideMy Only DarlingReleased1956GenreR&B, doo-wopLength2:45LabelFlash RecordsSongwriter(s)James Johnson, Ernestine SmithThe Jay Hawks singles chronology Counting My Teardrops (1955) Stranded in the Jungle (1956) Don't Mind Dyin' (1956) Stranded in the Jungle is a song originally recorded by the American doo-wop group the Jay Hawks. It was written by Ernestine Smith and the band's first tenor, James Johnson.[1] …
Antofagasta Volcán AntofagastaLocalización geográficaCordillera AndesCoordenadas 25°58′05″S 67°32′09″O / -25.968055555556, -67.535833333333Localización administrativaPaís ArgentinaDivisión Departamento Antofagasta de la SierraLocalización Argentina Antofagasta de la Sierra, Provincia de CatamarcaCaracterísticas generalesTipo Cono de escoriaAltitud 5.000 m s. n. m.GeologíaEra geológica HolocenoMapa de localización Antofagasta Ubicación en Argentina. …
STIE YKPN STIE YKPN atau Sekolah Tinggi Ilmu Ekonomi Yayasan Keluarga Pahlawan Negara adalah sebuah perguruan tinggi swasta yang didirikan pada 12 September 1980 di Yogyakarta. Perguruan tinggi ini menyelenggarakan program pendidikan Strata Satu (S-1), Pascasarjana (S-2), dan Program Pendidikan Profesi Akuntansi (PPA). Perguruan tinggi ini berlokasi di Jalan Seturan Raya, Depok-Sleman, Yogyakarta. Walaupun dibawah naungan Yayasan Keluarga Pahlawan Negara, STIE YKPN bukanlah sebuah perguruan ting…
Lison–Lamballe Viaduc de la Soulles bei CoutanceViaduc de la Soulles bei CoutanceStrecke der Bahnstrecke Lison–LamballeStreckenkarteStreckennummer (SNCF):415 000Kursbuchstrecke (SNCF):327 (Lison – Dol-de-Bretagne)Streckenlänge:205,7 kmSpurweite:1435 mm (Normalspur)Stromsystem:Lison–Saint-Lô undLamballe–km 201:25 kV, 50 Hz ~Maximale Neigung: 15 ‰Höchstgeschwindigkeit:140 km/hZweigleisigkeit:Dol-de-Bretagne–Avranches Legende Strecke Mantes-la-Jol…
Центральный банк Эсватини Расположение Мбабане, Эсватини Дата основания 24 марта 1974 года Валюта Лилангени Веб-сайт www.centralbank.org.sz Предшественник Управление денежного обращения Свазиленда Центральный банк Эсватини (свати Umntsholi Wemaswati, англ. Central bank of Eswatini) — центральный б…
إم بي دي إيهالشعارمعلومات عامةالجنسية فرنسا[1] التأسيس 2001النوع منظمة الشكل القانوني شركة بأسهم مبسطة[2] المقر الرئيسي المملكة المتحدة، باريس، فرنسا، روما، إيطاليا، شروبنهاوزن، ألمانياموقع الويب mbda-systems.com المنظومة الاقتصاديةالشركات التابعة MBDA (United Kingdom) (en) MBDA Deutschland…
Queen consort of Burma SuphankanlayaQueen consort of BurmaPrincess of AyutthayaStatue of Suphankanlaya at Wat Chan Tawan-ok, Phitsanulok ProvinceQueen consort of BurmaTenure22 January 1567 – 10 October 1581Bornin or before 1554PhitsanulokDied?SpouseBayinnaungIssueMin A-HtweHouseSukhothai DynastyFatherMaha ThammarachathiratMotherWisutkasatReligionTheravada Buddhism Suphankanlaya (Thai: สุพรรณกัลยา, Suvarṇakalyā; Burmese: ဗြဣန္ဒဒေဝီ) was a 16th-centur…
Species of true bug Empress cicada Scientific classification Domain: Eukaryota Kingdom: Animalia Phylum: Arthropoda Class: Insecta Order: Hemiptera Suborder: Auchenorrhyncha Family: Cicadidae Subfamily: Cicadinae Tribe: Dundubiini Genus: Megapomponia Species: M. imperatoria Binomial name Megapomponia imperatoria(Westwood, 1842) Synonyms Pomponia imperatoria The empress cicada (Megapomponia imperatoria) is a species of cicada from Southeast Asia. It is the largest species of cicada with a he…
Carl-Gustaf LindstedtCarl-Gustaf Lindstedt di Teater Maxim, Stockholm, Swedia pada 1968Lahir(1921-02-24)24 Februari 1921Kungsholmen, SwediaMeninggal16 Januari 1992(1992-01-16) (umur 70)Stockholm, SwediaKebangsaanSwediaPekerjaanPemeranTahun aktif1944-1992Suami/istriTullü Johansson (m. 1943)Anak3, termasuk Pierre Lindstedt Carl-Gustaf Lindstedt (24 Februari 1921 – 16 Januari 1992) adalah seorang pelawak dan pemeran asal Swedia.[…
Indian musician Dhrubajyoti Phukanধ্ৰুৱজ্যোতি ফুকনDhrubajyoti Phukan, receiving the best music director award from the Vice President of India Mohammad Hamid Ansari (59th National Film Awards 2011) at New Delhi.BornDhrubajyoti Phukan (1964-06-17) 17 June 1964 (age 59)Dibrugarh, AssamNationalityIndianOther namesDJ PhukanEducationMechanical Engineer from Assam Engineering College, AssamOccupation(s)Music Director, Music Producer, Music Arranger, Music produc…
British home construction company Taylor Wimpey plcTypePublic limited companyTraded asLSE: TW.FTSE 100 ComponentIndustryHousebuildingFounded2007; 16 years ago (2007)HeadquartersHigh Wycombe, England, UKKey peopleIrene Dorner (chairperson) Jennie Daly (CEO) Revenue £4,419.9 million (2022)[1]Operating income £907.5 million (2022)[1]Net income £643.6 million (2022)[1]Websitewww.taylorwimpey.co.uk Taylor Wimpey …
Visio Parte de Microsoft Office Información generalTipo de programa aplicación informáticaDesarrollador MicrosoftLicencia PropietariaVersionesÚltima versión estable 2021Archivos legibles varios Microsoft Visio Drawing, version 2000Microsoft Visio Drawing, version 2002Microsoft Visio Drawing, version 2013Microsoft Visio Stencil, version 2013Microsoft Visio Template, version 2013Microsoft Visio Macro-Enabled D…
Tommy O'Keefe Datos personalesNombre completo Thomas V. O'KeefeApodo(s) Tommy, TomNacimiento Jersey City, Nueva Jersey Estados Unidos16 de julio de 1926Nacionalidad(es) EstadounidenseFallecimiento Fredericksburg, Virginia Estados Unidos18 de octubre de 2015Altura 1,88 m (6′ 2″)Peso 84 kg (185 lb)Carrera deportivaDeporte BaloncestoEquipo universitario Notre DameGeorgetownClub profesionalDraft de la NBA 4.ª ronda (puesto 41), 1950 por Washington CapitolsLiga NBAPosi…
Cet article est une ébauche concernant la culture de la Tunisie et une société de production de cinéma. Vous pouvez partager vos connaissances en l’améliorant (comment ?) selon les recommandations des projets correspondants. Logo de la SATPEC. La Société anonyme tunisienne de production et d'expansion cinématographique (arabe : الشركة التونسية للإنتاج والتنمية السينمائية) ou SATPEC est un établissement public tunisien créé en 1957 et …
Charles Wardell Stiles (May 15, 1867 – January 24, 1941)[1] was an American parasitologist born in Spring Valley, New York. He was notable for working on a campaign against hookworm infestation in the American South, where it had been found to cause high rates of anemia, a debilitating disease.[2] Biography He studied science at Wesleyan University in Connecticut (1885–86), Collège de France (1886–87), the University of Berlin (1887–89) and the University of Leipzig (188…