An explosion is a rapid increase in volume and release of energy in an extreme manner, usually with the generation of high temperatures and the release of gases. An explosion creates a shock wave. If the shock wave is a supersonic detonation, then the source of the blast is called a "high explosive". Subsonic shock waves are created by low explosives through the slower burning process known as deflagration.
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Causes [link]
Natural [link]
Explosions can occur in nature. Most natural explosions arise from volcanic processes of various sorts. Explosive volcanic eruptions occur when magma rising from below has much dissolved gas in it; the reduction of pressure as the magma rises causes the gas to bubble out of solution, resulting in a rapid increase in volume. Explosions also occur as a result of impact events and in phenomena such as hydrothermal explosions (also due to volcanic processes). Explosions can also occur outside of Earth in the universe in events such as supernova. Explosions frequently occur during Bushfires in Eucalyptus forests where the volatile oils in the tree tops suddenly combust.[1]
Animal bodies can also be explosive, as some animals hold a large amount of flammable material such as animal fat. This, in rare cases, results in naturally exploding animals.[citation needed]
Astronomical [link]
Among the largest known explosions in the universe are supernovae, which result when a star explodes from the sudden starting or stopping of nuclear fusion, and gamma ray bursts, whose nature is still in some dispute. Solar flares are an example of explosion common on the Sun, and presumably on most other stars as well. The energy source for solar flare activity comes from the tangling of magnetic field lines resulting from the rotation of the Sun's conductive plasma. Another type of large astronomical explosion occurs when a very large meteoroid or an asteroid impacts the surface of another object, such as a planet.
Chemical [link]
The most common artificial explosives are chemical explosives, usually involving a rapid and violent oxidation reaction that produces large amounts of hot gas. Gunpowder was the first explosive to be discovered and put to use. Other notable early developments in chemical explosive technology were Frederick Augustus Abel's development of nitrocellulose in 1865 and Alfred Nobel's invention of dynamite in 1866. Chemical explosions (both intentional and accidental) are often initiated by an electric spark or flame. Accidental explosions may occur in fuel tanks, rocket engines, etc.
Electrical and magnetic [link]
A high current electrical fault can create an electrical explosion by forming a high energy electrical arc which rapidly vaporizes metal and insulation material. This arc flash hazard is a danger to persons working on energized switchgear. Also, excessive magnetic pressure within an ultra-strong electromagnet can cause a magnetic explosion.
Mechanical and vapor [link]
Strictly a physical process, as opposed to chemical or nuclear, e.g., the bursting of a sealed or partially sealed container under internal pressure is often referred to as a 'mechanical explosion'. Examples include an overheated boiler or a simple tin can of beans tossed into a fire.
Boiling liquid expanding vapor explosions are one type of mechanical explosion that can occur when a vessel containing a pressurized liquid is ruptured, causing a rapid increase in volume as the liquid evaporates. Note that the contents of the container may cause a subsequent chemical explosion, the effects of which can be dramatically more serious, such as a propane tank in the midst of a fire. In such a case, to the effects of the mechanical explosion when the tank fails are added the effects from the explosion resulting from the released (initially liquid and then almost instantaneously gaseous) propane in the presence of an ignition source. For this reason, emergency workers often differentiate between the two events.
Nuclear [link]
In addition to stellar (star) nuclear explosions, a man-made nuclear weapon is a type of explosive weapon that derives its destructive force from nuclear fission or from a combination of fission and fusion. As a result, even a nuclear weapon with a small yield is significantly more powerful than the largest conventional explosives available, with a single weapon capable of completely destroying an entire city.
Properties of explosions [link]
Force [link]
Explosive force is released in a direction perpendicular to the surface of the explosive. If the surface is cut or shaped, the explosive forces can be focused to produce a greater local effect; this is known as a shaped charge.
Velocity [link]
The speed of the reaction is what distinguishes the explosive reaction from an ordinary combustion reaction . Unless the reaction occurs rapidly, the thermally expanded gases will be dissipated in the medium, and there will be no explosion. Again, consider a wood or coal fire. As the fire burns, there is the evolution of heat and the formation of gases, but neither is liberated rapidly enough to cause an explosion. This can be likened to the difference between the energy discharge of a battery, which is slow, and that of a flash capacitor like that in a camera flash, which releases its energy all at once.
Evolution of heat [link]
The generation of heat in large quantities accompanies most explosive chemical reaction. The exceptions are called entropic explosives and include organic peroxides such as acetone peroxide[2] It is the rapid liberation of heat that causes the gaseous products of most explosive reactions to expand and generate high pressures. This rapid generation of high pressures of the released gas constitutes the explosion. The liberation of heat with insufficient rapidity will not cause an explosion. For example, although a pound of coal yields five times as much heat as a pound of nitroglycerin, the coal cannot be used as an explosive because the rate at which it yields this heat is quite slow. In fact, a substance which burns less rapidly (i.e. slow combustion) may actually evolve more total heat than an explosive which detonates rapidly (i.e. fast combustion). In the former, slow combustion converts more of the internal energy (i.e. chemical potential) of the burning substance into heat released to the surroundings, while in the latter, fast combustion (i.e. detonation) instead converts more internal energy into work on the surroundings (i.e. less internal energy converted into heat); c.f. heat and work (thermodynamics) are equivalent forms of energy. See Heat of Combustion for a more thorough treatment of this topic.
When a chemical compound is formed from its constituents, heat may either be absorbed or released. The quantity of heat absorbed or given off during transformation is called the heat of formation. Heats of formations for solids and gases found in explosive reactions have been determined for a temperature of 15 °C and atmospheric pressure, and are normally given in units of kilocalories per gram-molecule. A negative value indicates that heat is absorbed during the formation of the compound from its elements; such a reaction is called an endothermic reaction. In explosive technology only materials that are exothermic—that have a net liberation of heat—are of interest. Reaction heat is measured under conditions either of constant pressure or constant volume. It is this heat of reaction that may be properly expressed as the "heat of explosion."
Initiation of reaction [link]
A chemical explosive is a compound or mixture which, upon the application of heat or shock, decomposes or rearranges with extreme rapidity, yielding much gas and heat. Many substances not ordinarily classed as explosives may do one, or even two, of these things.
A reaction must be capable of being initiated by the application of shock, heat, or a catalyst (in the case of some explosive chemical reactions) to a small portion of the mass of the explosive material. A material in which the first three factors exist cannot be accepted as an explosive unless the reaction can be made to occur when needed.
Statement [link]
Fragmentation is the accumulation and projection of particles as the result of a high explosives detonation. Fragments could be part of a structure such as a magazine. High velocity, low angle fragments can travel hundreds or thousands of feet with enough energy to initiate other surrounding high explosive items, injure or kill personnel and damage vehicles or structures.
Notable explosions [link]
Chemical explosions [link]
- Nanaimo mine explosion 1887
- Halifax Explosion 1917
- Battle of Messines 1917
- Oppau explosion, Ludwigshafen, Germany 1921
- Bombay Explosion (1944)
- Port Chicago disaster 1944
- RAF Fauld explosion 1944
- Texas City Disaster 1947
- Nedelin catastrophe 1960
- Soviet N1 rocket explosion 1969
- Flixborough disaster 1974
- PEPCON disaster, Henderson, Nevada 1988
- Ryongchon disaster 2004
- 2005 Hertfordshire Oil Storage Terminal fire 2005
- Albania explosion Gerdec 2008
- Cataño oil refinery fire 2009
Nuclear testing [link]
Use in war [link]
- Atomic bombings of Hiroshima and Nagasaki
- Hand grenades
Exploding volcanoes [link]
See also [link]
- Deflagration
- Detonation
- Dust explosion
- Explosion protection
- Explosive limit
- Fuel tank explosion
- Implosion (mechanical process)
- Internal combustion engine
- Underwater explosion
- Unexplained explosion event
- Mushroom cloud
- Piston engine
- Plofkraak
- Standards for electrical equipment in potentially explosive environments
References [link]
- ^ Kissane, Karen (2009-05-22). "Fire power equalled 1500 atomic bombs". The Age (Melbourne). https://www.theage.com.au/national/fire-power-equalled-1500-atomic-bombs-20090521-bh7r.html?page=-1.
- ^ Dubnikova, Faina; Ronnie Kosloff, Joseph Almog, Yehuda Zeiri, Roland Boese, Harel Itzhaky, Aaron Alt, Ehud Keinan (2005-02-01). "Decomposition of Triacetone Triperoxide Is an Entropic Explosion". Journal of the American Chemical Society 127 (4): 1146–1159. DOI:10.1021/ja0464903. PMID 15669854.
External links [link]
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Look up explosion in Wiktionary, the free dictionary. |
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Look up explode in Wiktionary, the free dictionary. |
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Character design of Final Fantasy
Although each installment of the Final Fantasy series is generally set in a different fictional world with separate storylines, there are several commonalities when it comes to character design, as certain design themes repeat themselves, as well as specific character names and classes. Within the main series, Yoshitaka Amano was the character designer for Final Fantasy, Final Fantasy II, Final Fantasy III, Final Fantasy IV, Final Fantasy V and Final Fantasy VI, Tetsuya Nomura was the character designer for Final Fantasy VII, Final Fantasy VIII, Final Fantasy X, Final Fantasy XI and Final Fantasy XIII, Yoshitaka Amano created and did the concept art for the characters while Toshiyuki Itahana was the final character designer for Final Fantasy IX, and Akihiko Yoshida was the character designer for Final Fantasy XII.
Visual character design
The series has often featured male characters with slightly effeminate characteristics, as well as female characters with slightly tomboyish, but still feminine, characteristics. This trend has generally increased as the series evolved. These characters are usually teenagers, which some critics have interpreted as an effort on the part of the designers to ensure the players identify with them. At the same time, some female characters have been increasingly designed to wear very revealing outfits. Square Enix has stated that a more rugged looking hero had been considered for Final Fantasy XII but had ultimately been scrapped in favor of Vaan, another effeminate protagonist. The developers cited scenaristic reasons and target demographic considerations to explain their choice. For Final Fantasy XIII, Square Enix settled on a female main character, described as a "female version of Cloud from FFVII." This aspect of Final Fantasy can also be seen in Sora, the protagonist of Kingdom Hearts, a crossover series featuring Final Fantasy and Disney characters.
F.A.M.E. (album)
F.A.M.E. is the fourth studio album by American recording artist Chris Brown. It was first released on March 18, 2011, by Jive Records. The album serves as the follow-up to his third album Graffiti (2009). The album also marks as his last album with Jive Records. On this album, Brown worked with several record producers and songwriters; including Kevin McCall, Jean-Baptiste, Brian Kennedy, DJ Frank E, The Underdogs and The Messengers, among others. The album features guest appearances, from Wiz Khalifa, Game, Timbaland and Big Sean, among others.
Musically, F.A.M.E. combines the musical genres of R&B, pop, hip hop and Europop. Upon its release, the album received mixed reviews from most music critics, who were ambivalent towards its songwriting and material. The album debuted at number one on the US Billboard 200, with first-week sales of 270,000, Brown's first number-one album in the United States. It was certified gold by the Recording Industry Association of America (RIAA), for selling more than 500,000 copies. The album garnered three Grammy Award nominations at the 54th annual ceremony, eventually winning Best R&B Album. F.A.M.E. also won the Album of the Year at the 2011 Soul Train Music Awards.
Box office bomb
In the motion picture industry, a "box office bomb" or "box office flop" is a film that is viewed as highly unsuccessful or unprofitable during its theatrical run, sometimes preceding hype regarding its cost, production, or marketing efforts. Generally, any film for which the production and marketing costs exceed the combined revenue recovered after release is considered to have "bombed".
Gauging the financial success of a film is difficult, and because there is no reliable definition, what makes a "box-office bomb" can be very subjective. Not all films that fail to earn back their estimated costs during their theatrical runs are "bombs," and the label is generally applied to films that miss earnings projections by a wide margin, particularly when they are very expensive to produce, and sometimes in conjunction with middling or poor reviews (though critical reception has an imperfect connection to box office performance).
Causes of a film's failure
Negative word of mouth
Beginning in the 1980s, cinemas started to drop movies that suffered a poor opening weekend. This made the performance of a film on its opening weekend much more crucial to its perception. With the growth of the Internet during the 1990s, chat rooms and websites enabled negative word of mouth to spread rapidly.
Blast! (musical)
Blast! is a Broadway production created by James Mason for Cook Group Incorporated, the director and organization formerly operating the Star of Indiana Drum and Bugle Corps. It was the 2001 Winner of the Tony Award for "Best Special Theatrical Event" and also won the 2001 Emmy Award for "Best Choreography".
Blast!'s instrumentation is exclusively brass and percussion, a nod to the show's roots in the drum and bugle corps activity. Blast!'s performers use trumpets, flugelhorns, mellophones, baritone horns, tubas, trombones (including one on a unicycle during "Gee, Officer Krupke!"), french horns, and a full complement of percussion instruments including snare drums, tenor drums, bass drums, xylophones. vibraphones and marimbas, timpani, and other standard percussion equipment. In addition, Blast! adds instruments not normally found in drum corps, such as French horns, concert euphoniums, trombones and bass trombones, didgeridoos and synthesizers. Accompanying the wind and percussion is the Visual Ensemble (or VE for short), a group of dancers who manipulate a variety of props, similar to a color guard.
Myeloblast
The myeloblast is a unipotent stem cell, which will differentiate into one of the effectors of the granulocyte series. The stimulation by G-CSF and other cytokines triggers maturation, differentiation, proliferation and cell survival. It is found in the bone marrow.
Origin
These cells descend from the primitive reticulum cells, which are found in the stroma of the marrow. There is also an intermediate phase between the myeloblast and these primitive reticulum cell, namely the hemocytoblast. At this time several developing blood cell lines are available, like erythropoiesis and thrombopoiesis. The granulopoiesis is regulated by humoral agents, like colony-stimulating factor (CSF) and interleukin 3.
Location in the body
The myeloblasts reside extravascularly in the marrow. The hematopoiesis takes place in the extravascular cavities between the sinuses of the marrow. The wall of the sinuses is composed of two different types of cells, the endothelial cells and the adventitial reticular cells. The hemopoietic cells are aligned in cords or wedges between these sinuses, the myeloblasts and other granular progenitors are concentrated in the subcortical regions of these hemopoietic cords.
Blast (Russian band)
Blast is a Moscow-based band formed in the late 1990s by Georgian singer/songwriter Nash Tavkhelidze.
He had previously spent a number of years in the US playing in different bands. The band was composed of Nash, Russian Alexandre "Khlap" Artchevski and Bulgarians Vlado Kostov and Valio Blagoev. At that time the Moscow club scene was booming and BLAST very quickly became the most popular indie band in the city. In 1998 band was picked up by the indie label "Apollo G Records" (Manchester, UK). They released their first album "Pigs Can Fly" and followed this with a UK club tour in 2000. A few years later the band signed to Ghost Records UK and hit the studio recording the album F**K the industry with producer Graham Pilgrim. Ghost Records Musical Director Frank Perri and A&R manager Phillipe Palmer drew much attention to the Russian Rock Rebels and a place within the British music scene was forged. Regular tours of the UK and Europe have continued since that time.
