List of battery electric vehicles and Greek mathematics: Difference between pages

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'''Greek mathematics''', as that term is used in this article, is the [[mathematics]] written in [[Greek language|Greek]], developed from the [[6th century BC]] to the [[5th century|5th century AD]] around the Eastern shores of the [[Mediterranean]]. The word "mathematics" itself derives from the ancient Greek ''μαθημα'' (''mathema''), meaning "subject of instruction".<ref>{{cite book|author=Heath|title=A Manual of Greek Mathematics|pages=5}}</ref>. The study of mathematics for its own sake and the use of generalized mathematical theories and proofs is the key difference between Greek mathematics and those of preceding civilizations.


==Origins of Greek Mathematics==
This is a '''list of production battery electric vehicles''' (all-electric cars). You may want to view [[List of production battery electric vehicles (table)|this information in table format]].<br>
The origins of Greek mathematics is not easily documentable. While no direct evidence is available, it is generally presumed that the neighboring [[Babylonian]]s and [[Ancient Egypt|Egyptians]] had an influence on the younger Greek tradition. Between [[800 BC]] and [[600 BC]] Greek mathematics generally lagged behind Greek literature, and there is very little known about Greek mathematics from this period&mdash;nearly all of which was passed down through later authors, beginning in the mid-4th century BC.<ref name="Boyer_2nd_ed_43-61"> Boyer & Merzbach (1991) pp. 43-61 </ref>


== Cars ==
==Classical Period==
Historians traditionally place the beginning of Greek mathematics proper to the age of [[Thales]] of [[Miletus]] (ca. 624 - 548 BC). Little is known about the life and work of Thales, so little indeed that his day of birth and death are estimated from the eclipse of 585 BCE, which probably occurred while he was in his prime. Despite this, it is generally agreed that Thales is the first of the [[seven wise men]] of Greece. The [[Theorem of Thales]], which states that an angle inscribed in a semicircle is a right angle, may have been learned by Thales while in Babylon but tradition attributes to Thales a demonstration of the theorem. It is for this reason that Thales is often hailed as the father of the deductive organization of mathematics and as the first true mathematician. Thales is also thought to be the earliest known man in history to whom specific mathematical discoveries have been attributed. Although it is not known whether or not Thales was the one who introduced into mathematics the logical structure that is so ubiquitous today, it is known that within two hundred years of Thales the Greeks had introduced logical structure and the idea of proof into mathematics.
===Current in-production cars===
[[Image:EuclidStatueOxford.jpg|thumb|Statue of Euclid in the [[Oxford University Museum of Natural History]].]]
{{Details|:Category:Production electric vehicles}}
Another important figure in the development of Greek mathematics is [[Pythagoras]] of [[Samos]] (ca. 580 - 500 BC). Like Thales, Pythagoras also traveled to Egypt and Babylon, then under the rule of [[Nebuchadnezzar]],<ref name="Boyer_2nd_ed_43-61"/><ref name="Heath_36-111"> Heath (2003) pp. 36-111 </ref> but settled in [[Crotone|Croton]], [[Magna Graecia]]. Pythagoras established an order called the [[Pythagoreans]], which held knowledge and property in common and hence all of the discoveries by individual Pythagoreans were attributed to the order. And since in antiquity it was customary to give all credit to the master, Pythagoras himself was given credit for the discoveries made by his order. Aristotle for one refused to attribute anything specifically to Pythagoras as an individual and only discussed the work of the Pythagoreans as a group. One of the most important characteristics of the Pythagorean order was that it maintained that the pursuit of philosophical and mathematical studies was a moral basis for the conduct of life. Indeed, the words "philosophy" (love of wisdom) and "mathematics" (that which is learned) are said to have been coined by Pythagoras. From this love of knowledge came many achievements. It has been customarily said that the Pythagoreans discovered most of the material in the first two books of [[Euclid]]'s ''[[Euclid's Elements|Elements]]''.


Distinguishing the work of Thales and Pythagoras from that of later and earlier mathematicians is difficult since none of their original works survives, except for possibly the surviving "Thales-fragments", which are of disputed reliability. However, many<ref>Such as Hans-Joachim Waschkies and Carl Boyer</ref> historians have argued that much of the mathematical knowledge ascribed to Thales was in fact developed later, particularly the aspects that rely on the concept of angles, while the use of general statements may have appeared earlier, such as those found on Greek legal texts inscribed on slabs.<ref>Hans-Joachim Waschkies, "Introduction" to "Part 1: The Beginning of Greek Mathematics" in ''Classics in the History of Greek Mathematics'', pp. 11-12</ref> The reason that it is not clear exactly what either Thales or Pythagoras actually did is that almost no contemporary documentation has survived. The only evidence comes from traditions recorded in works such as [[Proclus]]’ commentary on [[Euclid]] written centuries later. Some of these later works, such as [[Aristotle]]’s commentary on the [[Pythagoreans]], are themselves only known from a few surviving fragments.
=====Full-sized cars=====
Cars and trucks of normal size and speed.


Thales is supposed to have used [[geometry]] to solve problems such as calculating the height of pyramids based on the length of shadows, and the distance of ships from the shore. He is also credited by tradition with having made the first proof of a geometric theorem - the "Theorem of Thales" described above. Pythagoras is widely credited with recognizing the mathematical basis of musical [[harmony]], and according to Proclus' commentary on Euclid he discovered the theory of proportionals and constructed [[regular solids]]. Some modern historians have questioned whether he really constructed all five regular solids, suggesting instead that it is more reasonable to assume that he constructed just three of them. Some ancient sources attribute the discovery of the [[Pythagorean theorem]] to Pythagoras, whereas others claim it was a proof for the theorem that he discovered. Modern historians believe that the principle itself was known to the Babylonians and likely imported from them. The Pythagoreans regarded [[numerology]] and geometry as fundamental to understanding the nature of the universe and therefore central to their philosophical and religious ideas. They are credited with numerous mathematical advances, such as the discovery of [[irrational numbers]]. Historians credit them with a major role in the development of Greek mathematics (particularly [[number theory]] and geometry) into a coherent logical system based on clear definitions and proven theorems that was considered to be a subject worthy of study in its own right, without regard to the practical applications that had been the primary concern of the Egyptians and Babylonians. <ref name="Boyer_2nd_ed_43-61"/><ref name="Heath_36-111"/>
*[[AC Propulsion eBox]], a [[li-ion]] powered conversion of a [[Scion xB|Toyota Scion xB]]
*Current, a 4 Door/4 Passenger Hatchback with 65-200&nbsp;miles distance per charge and 65-70&nbsp;mph highway speed<ref>[http://www.electriccitymotors.com/ http://www.electriccitymotors.com]</ref>
*[[Cleanova]], Société de Véhicules Électriques ([[Dassault Group]]), based on a [[Kangoo]]; the [[French postal service]] recently bought 40000 items.
*Arton Birdie<ref>[http://www.histomobile.com/dvd_histomobile/histomo/97/2770.asp Histomobile]</ref>
*Blade Runner Mk11<ref>[http://www.bev.com.au Blade Electric Vehicles]</ref>
* Hybrid Technologies<ref>[http://www.hybridtechnologies.com Hybrid Technologies | changing the world by reinventing power<!-- Bot generated title -->]</ref> :
**[[LiV DASH]]
** [[LiV WISE]]
** [[LiV RUSH]]
** [[LiV SURGE]]
** [[LiV FLASH]]
** [[British Embassy Mini Cooper]]
*[[Peugeot Partner]]
*[[Piaggio Porter Electric]] an Italian suburban electric vehicle <ref>[http://www.vtl.piaggio.com/porter_el.htm Piaggio LTV - Porter Range<!-- Bot generated title -->]</ref>
*[[Tesla Roadster]], a li-ion powered sports car.


=====Microcars=====
==Hellenistic==
Cars that are very small but are as fast and capable as larger cars.


The [[Hellenistic period]] began in the [[4th century BC]] with [[Alexander the Great]]'s conquest of the eastern [[Mediterranean]], [[ancient Egypt|Egypt]], [[Mesopotamia]], the [[Iranian plateau]], [[Central Asia]], and parts of [[India]], leading to the spread of the Greek language and culture across these areas. Greek became the language of scholarship throughout the Hellenistic world, and Greek mathematics merged with [[Egyptian mathematics|Egyptian]] and [[Babylonian mathematics]] to give rise to a Hellenistic mathematics.
* Electrorides EV-Mini <ref name=autogenerated1>[http://www.electrorides.com/fleet.htm Fleet - Electrorides<!-- Bot generated title -->]</ref>
*[[REVA]] Indian-built city car. Also sold the UK as the G-Wiz as well as in several European countries. In the USA, limited for use as a [[Neighborhood electric vehicle|Neighborhood Electric Vehicle]].
*[[Kewet]]
*[[Lumeneo Smera]], {{mph|80}} . <ref>[http://lumeneo.fr/smera_concept_eng.html SMERA Concept<!-- Bot generated title -->]</ref>
*[http://www.maranello4cycle.com/en/energia/sce.php Maranello 4cycle] — an Italian car.
*[[MM NmG]], previously named [[Corbin Sparrow]]
*[[Zytek]][http://www.zytekgroup.co.uk] Smart fortwo EV - an electric version of the [[Smart Fortwo]]


The most important centre of learning during this period was [[Alexandria]] in [[Ancient Egypt|Egypt]], which attracted scholars from across the Hellenistic world, mostly Greek and [[Egyptians|Egyptian]], but also [[Jew]]ish, [[Persian people|Persian]], [[Phoenicia]]n and even [[History of India|Indian]] scholars.<ref>George G. Joseph (2000). ''The Crest of the Peacock'', p. 7-8. [[Princeton University Press]]. ISBN 0691006598.</ref>
=====Low-speed vehicles=====
<!----In alphabetic order--->


Most of the mathematical texts written in Greek have been found in Greece, [[Egypt]], [[Anatolia|Asia Minor]], [[Mesopotamia]], and [[Sicily]].
These vehicles have a low top speed (like most scooters) and may not be street-legal without restrictions.
*[[OKA NEV ZEV]] ([http://www.okaauto.com]) Low Speed Electric Vehicle made in Russia, sold in USA.
*[[CityEl]] ([http://www.cityel.de cityel.de]) three-wheeled EV, produced in Germany.
*[[Dynasty EV]] a [[neighborhood electric vehicle]] with a design reminiscent of the [[Volkswagen Beetle]]
*[[Global Electric Motorcars|Global Electric Motorcars, LLC (GEM)]] quite common in [[California]].
*[[Miles Electric Vehicles]] ([http://www.milesev.com Miles Electric Vehicles]) LSVs for fleet and neighborhood use sold internationally by a Los Angeles based manufacturer.
*NICE ([http://www.nicecarcompany.co.uk http://www.nicecarcompany.co.uk]) UK based. Makers of the MEGA City.
*[[Open]] ([http://www.startlab.it startlab.it]) Since the beginning of this year also sold in Japan as Girasole, with higher speed and wider range as the Open.
*[[REVA]] Indian-built city car. May be exported to the USA with a speed limiter for use as a [[Neighborhood electric vehicle|Neighborhood Electric Vehicle]]. Unrestricted use in most other countries.
*[[Twike]] three-wheeled ev with pedal assist option. produced in Germany.
*[[Vantage TruckAll/VanGo]] ([http://vantage.metrogolfcars.com/page.php?5 vantage.metrogolfcars.com]) low speed trucks and vans, based in the USA.
*[[ZAP Xebra|Xebra]] ([http://www.zapworld.com/ zapworld.com]) an economy priced, enclosed three-wheel electric vehicle. Imports to the USA in 2006 from China.
*[[ZENN]] ([http://www.zenncars.com zenncars.com]) a fully-enclosed 3-Door hatchback [[Low-speed vehicle]] (LSV).


[[Image:NAMA Machine d'Anticythère 1.jpg|thumb|right|The [[Antikythera mechanism]], an ancient mechanical calculator.]]
===Cars planned for production===
[[Archimedes]] was able to use [[infinitesimal]]s in a way that is similar to modern [[Integral|integral calculus]]. By assuming a proposition to be true and showing that this would lead to a [[contradiction]], he could give answers to problems to an arbitrary degree of accuracy, while specifying the limits within which the answer lay. This technique is known as the [[method of exhaustion]], and he employed it to approximate the value of [[Pi|π]] (Pi). In ''[[The Quadrature of the Parabola]]'', Archimedes proved that the area enclosed by a [[parabola]] and a straight line is {{nowrap|4/3}} times the area of a [[triangle]] with equal base and height. He expressed the solution to the problem as an infinite [[geometric series]], whose sum was {{nowrap|4/3}}. In ''[[The Sand Reckoner]]'', Archimedes set out to calculate the number of grains of sand that the universe could contain. In doing so, he challenged the notion that the number of grains of sand was too large to be counted, devising his own counting scheme based on the [[myriad]], which denoted 10,000.
<!-------- In alphabetic order-------------->
*[[Aptera Typ-1]] is a high-efficiency vehicle currently in development by [[Aptera Motors|Aptera Motors, Inc]], now accepting pre-orders.
*[[BG Automotive Group]]
**[http://www.bgelectriccars.com], will offer an NEV, the web site says. Pa. Legislature not yet cooperating on allowing NEVs, a/o 9/18/08.
*[[Bolloré Blue Car]]
*[[Chevrolet Volt]]
*[[Commuter Cars Tango]] narrow, fast two seater (fore and aft.) now accepting pre-orders in the United States.
*[[Elektrikcar]]
**[http://www.elektrikcar.com/201.html], Elektrikcar LLC plans to build 2+2 passenger, sports electric coupes with tear drop styling to reduce drag
**[http://www.elektrikcar.com/4722.html] The limited production cars will be made of carbon fiber bodies, with lithium Iron Phosphate for 200&nbsp;miles or more range per charge.
*[[Hybrid Technologies]]
**[http://www.hybridtechnologies.com/products.php?sec=1&id=9 Mini Cooper conversion], estimated to cost $60,000<ref>{{cite web |title=Will this be 2008's "It" car? MINI Cooper EV starts production |url=http://www.autobloggreen.com/2007/07/12/will-this-be-2008s-it-car-mini-cooper-ev-starts-production |date=2007-07-12 |accessdate=2007-07-12}}</ref>
**[http://www.hybridtechnologies.com/media.php?mediaid=060212 Mullen LIX-75 by Hybrid Technologies] announced in 2006, lithium-powered eco-sports car, estimated to be sold at $124,900
**[http://www.hybridtechnologies.com/products/cars/dash Smart Car] [[li-ion]] powered conversion of a [[Smart Fortwo]].
*[[Lightning Car Company]] is currently developing its eponymous Lightning based on a pre-existing internal combustion-powered sports car, and plans to use [[NanoSafe]] cells.
*[http://www.marlipmotor.com/ Marlip Motors(Marmut Listrik LIPI)], developed in Indonesia by the Science Institute of Indonesia (LIPI)
* [[Miles Electric Vehicles]] [http://www.milesev.com Miles Electric Vehicles] XS500 planned for production in 2009. It's a four door sedan and it will have an 80+ MPH top speed, 120&nbsp;mile range, battery life of approx. 100000&nbsp;miles and a price tag of $30,000 <ref>[http://money.cnn.com/2007/08/13/autos/electric_car/index.htm?postversion=2007081312 At $30,000 and 80-mph, an electric car for the common man - Aug. 13, 2007<!-- Bot generated title -->]</ref>
*[[Obvio!]] 828E and 012E
*[[Phoenix Motorcars]] [http://www.phoenixmotorcars.com phoenixmotorcars.com] based in Ontario, California, plans to build both a mid-sized [[SUV]] and an SUT (Sports Utility Truck) with 130&nbsp;mile range for $45,000 using NanoSafe batteries from [[Altairnano]]. 500 cars are planned for delivery in early 2008 to fleet customers. A consumer version is planned for release in late 2008. 250+ mile range version also in development.
*[[Smart Fortwo#Future plans|Smart fortwo EV]] also see [[Smart (automobile)#United States|Smart (automobile)]]
*[[SSC Ultimate Aero]] EV - Planned for Q4 of 2009
*[[Ronaele 300E Mustang]] [http://www.ronaele.net/Press_Release_Ronaele_Build_All_Electric_Mustangs%20.pdf] planned to begin production in May 2008. Worlds first all-electric American muscle car, with a range of 125&nbsp;miles and top speed of 150&nbsp;mph, or a possible top speed of over 200&nbsp;mph.
*[[Tesla Model S]] planned for 2010 delivery. Estimated to cost $60,000 with a $30,000 model planned later on.
*[[Th!nk]] [http://www.thinkev.com thinkev.com] With new investors a new start this year.
*[[Universal Electric Vehicle|Universal Electric Vehicle Corporation Electrum series Spyder, COM V-3]]
*[[VentureOne]] Trike with hybrid and EV options. Currently in the design stage.
*[[Venturi Fetish|Venturi Fétish]] marketed as the worlds first electric sports two-seater. Monaco
*[[Wrightspeed X1]] [http://www.wrightspeed.com wrightspeed.com] an Ariel Atom sports car modified to use an all-electric powertrain. Probably the world's fastest electric car <ref>[http://money.cnn.com/2007/10/04/autos/electric_wright.fortune/ Wrightspeed X1: An electric car with all the Wright moves - Oct. 5, 2007<!-- Bot generated title -->]</ref>
*[[ZAP-X]] [http://www.zapworld.com zapworld.com] a four door crossover engineered by lotus with a price tag of around $60,000. No production date given.
*[[ZENN]] ([http://www.zenncars.com zenncars.com]) is planning to launch the cityZENN in fall 2009. It will be the first electric car to use the revolutionary [[EEStor]] [[ultra-capacitor]].


Greek mathematics and astronomy reached a rather advanced stage during [[Hellenistic period|Hellenism]], with scholars such as [[Hipparchus]], [[Posidonius]] and [[Ptolemy]], capable of the construction of simple analogue computers such as the [[Antikythera mechanism]].
===Discontinued cars===
<!-- In alphabetic order please -->
*[[AC Propulsion TZero]] very fast two-seat sportster prototype. four produced.
*[[Anthony Electric]]
*[[Baker Electric]]
*[[Bertone Blitz]]
*[[Chevrolet S10 EV]] (some sold to fleets, available on secondary market as refurbished vehicles) S-10 with [[general motors ev1|EV1]] powertrain, over 100 produced only about 60 sold to private owners and survived. Currently [http://www.evbones.com/ EVBones] in Mesa, AZ restores and converts them to use [[NiMH]] battery packs. 2007.
*[[Chrysler TEVan]] (1993-1995) and second generation [[Chrysler TEVan|EPIC]] (1998-1999)
*[[Citicar|citicar/commutacar/comuta-van]] This car had a plastic body, aluminum frame, lead acid batteries, top speed of 50&nbsp;MPH and a range of about 50&nbsp;miles. This car was manufactured in Sebring, FL and was ahead of its time. No other car today uses an aluminum frame to keep weight down.
*[[Citroën Berlingo|Citroën Berlingo Electrique]] (1999-2005)
*[[Citroën Saxo|Citroën Saxo Electrique]]
*[[Corbin Sparrow]]
*[[Detroit Electric]] (1907-1939)
*[[Elcat]] (1985-2002, almost all vehicles in second-hand use)
*[[Enfield 8000]] (1971)
*[[Ford Ranger EV]] (1998-2003) some sold, most leased. Several hundred were produced for lease only, almost all were recovered and most destroyed. Ford has announced{{Fact|date=April 2007}} reconditioning and sale of a limited quantity to former leaseholders by lottery.
*[[Ford Think]] Neighbor (2002)
*[[GM EV1|General Motors EV1]] Gen I (1996-1997) used [[VRLA]] batteries, Gen II (1999-2003) used [[NiMH]] batteries.
*[[Henney Kilowatt]] (1958-1960) the first modern (transistor-based) electric car, capable of highway speeds of up to 60&nbsp;mph and outfitted with modern hydraulic brakes. Fewer than 100 of them were produced before production was discontinued in 1960.
*[[Honda EV Plus]] (199?-1999) (several hundred produced for lease only, all recovered and most destroyed)
*[[Nissan]]:
**[[Nissan Altra]] lithium-powered [[hatchback]]; never offered (even by lease) to consumers. [http://www.altfuels.org/events/testdriv/altra.html]
**[[Hypermini|Nissan Hypermini]] [http://www.dontcrush.com/gallery/Nissan/Hypermini_PSDN_3]
*[[Peugeot 106]] ev
*[[Pivco City Bee]]
*[[Sebring-Vanguard Citicar]] A 1970's car. See review in Consumer Reports magazine.
*[[Sinclair C5]]
*[[Solectria Force]] - conversion of Geo Metro, not currently in production
*[[Škoda Eltra]] (1992-1993, based on [[Škoda Favorit]], 200 produced and sold, production cancelled after [[Volkswagen Group]] take control of factory)
*[[Tatra Beta EL]] (1994-1997, based on Škoda Eltra, 368 produced)
*[[Think City]] - Norwegian import by [[Ford]], lease only, all recovered and returned to Norway.
*[[Toyota]]
**[[Toyota RAV4 EV]] (leased and sold on U.S. east and west coast, out of production, supported. Toyota agreed to stop crushing{{Fact|date=April 2007}}
*[[Volkswagen]]
**[[Volkswagen Golf#Alternative fuel Golfs|Volkswagen Golf CITYStromer]] (1995-1998) volkswagen has built 200 electric versions of the golf 3.
**[[Volkswagen Jetta#Fuel Alternatie Jettas|Volkswagen Jetta CITYStromer]]
*[[Zebra Model Z Roadster]] (formerly Renaissance Tropica)
*[[Zytek Lotus Elise]]


==Achievements==
==Medium and Light Duty Trucks and Vans==
* Electrorides <ref>[http://www.electrorides.com Electrorides<!-- Bot generated title -->]</ref> ZeroTruck<ref>[http://www.electrorides.com/zerotruck.htm ZeroTruck™ - Electrorides<!-- Bot generated title -->]</ref>, <ref>[http://www.businesswire.com/portal/site/home/news/sections/?ndmViewId=news_view&newsLang=en&newsId=20080512005059 ZeroTruck(TM) Powered by UQM(R) Electric Propulsion System Debuts at AFVI Expo in Las Vegas<!-- Bot generated title -->]</ref>, based on an [[Isuzu N-series]] platform, retrofitted with a [[UQM Technologies]] electric motor.
* Electrorides ZeroSUV <ref name=autogenerated1 />
* [[Miles Electric Vehicles]] http://www.milesev.com/index.asp#zx40st.swf - MILES ZX40ST Electric Truck
* [[Modec]] http://www.modec.co.uk/ - UK built electric delivery vans


Greek mathematics constitutes a major period in the history of [[mathematics]], fundamental in respect of [[geometry]] and the idea of [[formal proof]]. Greek mathematics also contributed importantly to ideas on [[number theory]], [[mathematical analysis]], [[applied mathematics]], and, at times, approached close to [[integral calculus]].
==Heavy Duty Trucks==
*[[Smith Electric Vehicles]]
**[http://www.smithelectricvehicles.com/products.asp?p=Faraday Smith Faraday] - 4.5 tonne truck
**[http://www.smithelectricvehicles.com/products.asp?p=ST Smith ST] - 5.0 - 7.5 tonne truck
**[http://www.smithelectricvehicles.com/products.asp?p=NT Smith Newton] - 7.5 tonne truck
*[[Might-E Truck]] <ref>[http://www.canev.com Canadian Electric Vehicles Ltd<!-- Bot generated title -->]</ref> Heavy duty electric work truck. Road legal as an [[Low Speed Vehicle|LSV]] in the US.


Well-known figures in Greek mathematics include [[Pythagoras]], a shadowy figure from the isle of [[Samos Island|Samos]] associated partly with number mysticism and [[numerology]], but more commonly with his [[Pythagorean theorem|theorem]], and [[Euclid]], who is known for his ''[[Euclid's Elements|Elements]]'', a canon of geometry for many centuries.
==Motorcycles and scooters==
{{Main|Electric motorcycles and scooters}}
* [[Electric Moto]]
** [http://www.electricmoto.com/index.php/products/detailed/blade_xt/ Blade XT]
* [[Electric Motorsport]]
** [http://www.electricmotorsport.com/store/ems_electric_motorcycle_super_motard.php Super Motard]
** [http://www.electricmotorsport.com/store/ems_electric_motorcycle_gpr-s.php Electric GPR-S]
** [http://www.electricmotorsport.com/store/ems_electric_scooter_evt_america.php EVT America Z-20a and Z-20b]
** [http://www.electricmotorsport.com/store/ems_electric_scooter_evt.php EVT Ion and Equinox]
** [http://www.electricmotorsport.com/store/ems_electric_scooter_oxygen.php Oxygen Lepton]
* [[Hybrid Technologies]]
** [http://www.hybridtechnologies.com/products/motorcycles/e_cobra E-Cobra]
** [http://www.hybridtechnologies.com/products/motorcycles/chp_chopper CHP Chopper]
** [http://www.hybridtechnologies.com/products/mopeds/cruz LiV CRUZ]
* [[Mantra Sports]]
** [http://www.matra-ms.com/en/light-electric-vehicles/matra-sports.html i-step runner and city]
* [[Zero Motorcycles]]
** [http://www.zeromotorcycles.com/zero-x.php Zero X]


The most characteristic product of Greek mathematics may be the theory of [[conic section]]s, largely developed in the Hellenistic period. The methods used made no explicit use of [[algebra]], nor [[trigonometry]].
== Buses ==
{{Main|Electric bus}}


==Transmission and the manuscript tradition==
==Electric vehicle production==
{{cleanup-merge}}


Although the earliest [[Greek language]] texts on mathematics that have been found were written after the Hellenistic period, many of these are considered to be copies of works written during and before the Hellenistic period. Nevertheless, the dates of Greek mathematics are more certain than the dates of earlier mathematical writing, since a large number of chronologies exist that, overlapping, record events year by year up to the present day. Even so, many dates are uncertain; but the doubt is a matter of decades rather than centuries.
===Major vehicle manufacturers===
==== DaimlerChrysler ====
On July 12, 2006, the [[DaimlerChrysler]] division [[Smart (automobile)|SMART cars]], announced that it would premiere a new [[Smart Fortwo|Smart Fortwo EV]] at the [[British International Motor Show]] held at the [[ExCeL Exhibition Centre]] on 18 July.


During the [[Middle Ages]], Europe derived much of its knowledge of Greek mathematics ''via'' [[Islamic mathematics]]. The texts of Greek mathematics were for the most part preserved and transmitted in the [[Muslim world]]. For instance, the oldest surviving Latin version of Euclid's ''[[Euclid's Elements|Elements]]'' is a 12th century translation from Arabic.
The car will be made available on a lease arrangement to selected UK corporate customers with deliveries starting in November 2006. Up to 200 of the electric microcars will be built and delivered to the UK, which will serve as the trial market for the vehicle.


==See also==
According to the DaimlerChrysler press release, the Smart EV sets a new benchmark in the electric vehicle sector; it has 30&nbsp;kW output and a top speed of 70&nbsp;mph. It offers even better in-town performance than its petrol powered stablemate, with 0-30&nbsp;mph in 6.5 seconds. With a range of up to 72&nbsp;miles, the Smart EV is exempt from vehicle excise duty and the London [[congestion charge]].
* [[Chronology of ancient Greek mathematicians]]
* [[History of mathematics]]
* [[Timetable of Greek mathematicians]]


== Footnotes ==
The drive train for the Smart EV is produced in the UK by technology partner [[Zytek|Zytek Group]] who undertake final assembly of the car in [[Fradley]], near [[Lichfield]].
{{reflist}}


==== Mitsubishi ====
== References ==
*{{Harvard reference
[[Mitsubishi Motors]] announced on May 11, 2005 that it will mass-produce its [[MIEV|Mitsubishi In-wheel Electric Vehicle (MIEV)]]. Test fleets are to arrive in 2006 and production models could be available in 2010. The first test car, revealed to be [[Mitsubishi Colt EV|Colt EV]], is expected to have a range of 93&nbsp;miles using [[lithium-ion batteries]] and in-wheel electric motors. The target price of an MIEV is US$19,000, although no export decision has yet been made.<ref>[http://msnbc.msn.com/id/7816102/ "Mitsubishi unveils electric car for 2010"], Associated Press, MSNBC, May 11, 2005</ref>
| first=Carl B.
| last=Boyer
| authorlink=Carl Benjamin Boyer
| title=A History of Mathematics
| publisher=Princeton University Press
| year=1985
| isbn=0691023913
}}
*{{Harvard reference
| first=Carl B.
| last=Boyer
| authorlink=Carl Benjamin Boyer
| first2= Uta C.
| last2 = Merzbach
| title=A History of Mathematics
| edition=Second Edition
| publisher=John Wiley & Sons, Inc.
| year=1991
| isbn=0471543977
}}
*{{Harvard reference
| editor=Jean Christianidis
| title=Classics in the History of Greek Mathematics
| publisher=Kluwer Academic Publishers
| year=2004
| isbn=1-4020-0081-2
}}
*{{Harvard reference
| first=Roger
| last=Cooke
| title=The History of Mathematics: A Brief Course
| publisher=Wiley-Interscience
| year=1997
| isbn=0471180823
}}
*{{Harvard reference
| first=John
| last=Derbyshire
| authorlink=John Derbyshire
| title=Unknown Quantity: A Real And Imaginary History of Algebra
| publisher=Joseph Henry Press
| year=2006
| isbn=030909657X
}}
*{{Harvard reference
| first=John
| last=Stillwell
| authorlink=John Stillwell
| title=Mathematics and its History
| edition=Second Edition
| publisher=Springer Science + Business Media Inc.
| year=2004
| isbn=0387953361
}}
*{{Harvard reference
| first=David M.
| last=Burton
| title=The History of Mathematics: An Introduction
| edition=Third Edition
| publisher=The McGraw-Hill Companies, Inc.
| year=1997
| isbn=0070094659
}}
*{{Harvard reference
| first=Thomas Little
| last=Heath
| authorlink= T. L. Heath
| title=A History of Greek Mathematics
| publisher=Dover publications
| year=1981
| isbn=0486240738, ISBN 0486240746
}} (first published 1921).
*{{Harvard reference
| first=Thomas Little
| last=Heath
| authorlink= T. L. Heath
| title=A Manual of Greek Mathematics
| publisher=Dover publications
| year=2003
| isbn=048643231-9
}} (first published 1931).


*Szabo, Arpad ''The Beginnings of Greek Mathematics'' (Tr Ungar) Reidel & Akademiai Kiado, Budapest 1978 ISBN 963 05 1416 8
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{{Greek mathematics}}
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[[Category:Greek mathematics| ]]
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Revision as of 13:42, 10 October 2008

Greek mathematics, as that term is used in this article, is the mathematics written in Greek, developed from the 6th century BC to the 5th century AD around the Eastern shores of the Mediterranean. The word "mathematics" itself derives from the ancient Greek μαθημα (mathema), meaning "subject of instruction".[1]. The study of mathematics for its own sake and the use of generalized mathematical theories and proofs is the key difference between Greek mathematics and those of preceding civilizations.

Origins of Greek Mathematics

The origins of Greek mathematics is not easily documentable. While no direct evidence is available, it is generally presumed that the neighboring Babylonians and Egyptians had an influence on the younger Greek tradition. Between 800 BC and 600 BC Greek mathematics generally lagged behind Greek literature, and there is very little known about Greek mathematics from this period—nearly all of which was passed down through later authors, beginning in the mid-4th century BC.[2]

Classical Period

Historians traditionally place the beginning of Greek mathematics proper to the age of Thales of Miletus (ca. 624 - 548 BC). Little is known about the life and work of Thales, so little indeed that his day of birth and death are estimated from the eclipse of 585 BCE, which probably occurred while he was in his prime. Despite this, it is generally agreed that Thales is the first of the seven wise men of Greece. The Theorem of Thales, which states that an angle inscribed in a semicircle is a right angle, may have been learned by Thales while in Babylon but tradition attributes to Thales a demonstration of the theorem. It is for this reason that Thales is often hailed as the father of the deductive organization of mathematics and as the first true mathematician. Thales is also thought to be the earliest known man in history to whom specific mathematical discoveries have been attributed. Although it is not known whether or not Thales was the one who introduced into mathematics the logical structure that is so ubiquitous today, it is known that within two hundred years of Thales the Greeks had introduced logical structure and the idea of proof into mathematics.

Statue of Euclid in the Oxford University Museum of Natural History.

Another important figure in the development of Greek mathematics is Pythagoras of Samos (ca. 580 - 500 BC). Like Thales, Pythagoras also traveled to Egypt and Babylon, then under the rule of Nebuchadnezzar,[2][3] but settled in Croton, Magna Graecia. Pythagoras established an order called the Pythagoreans, which held knowledge and property in common and hence all of the discoveries by individual Pythagoreans were attributed to the order. And since in antiquity it was customary to give all credit to the master, Pythagoras himself was given credit for the discoveries made by his order. Aristotle for one refused to attribute anything specifically to Pythagoras as an individual and only discussed the work of the Pythagoreans as a group. One of the most important characteristics of the Pythagorean order was that it maintained that the pursuit of philosophical and mathematical studies was a moral basis for the conduct of life. Indeed, the words "philosophy" (love of wisdom) and "mathematics" (that which is learned) are said to have been coined by Pythagoras. From this love of knowledge came many achievements. It has been customarily said that the Pythagoreans discovered most of the material in the first two books of Euclid's Elements.

Distinguishing the work of Thales and Pythagoras from that of later and earlier mathematicians is difficult since none of their original works survives, except for possibly the surviving "Thales-fragments", which are of disputed reliability. However, many[4] historians have argued that much of the mathematical knowledge ascribed to Thales was in fact developed later, particularly the aspects that rely on the concept of angles, while the use of general statements may have appeared earlier, such as those found on Greek legal texts inscribed on slabs.[5] The reason that it is not clear exactly what either Thales or Pythagoras actually did is that almost no contemporary documentation has survived. The only evidence comes from traditions recorded in works such as Proclus’ commentary on Euclid written centuries later. Some of these later works, such as Aristotle’s commentary on the Pythagoreans, are themselves only known from a few surviving fragments.

Thales is supposed to have used geometry to solve problems such as calculating the height of pyramids based on the length of shadows, and the distance of ships from the shore. He is also credited by tradition with having made the first proof of a geometric theorem - the "Theorem of Thales" described above. Pythagoras is widely credited with recognizing the mathematical basis of musical harmony, and according to Proclus' commentary on Euclid he discovered the theory of proportionals and constructed regular solids. Some modern historians have questioned whether he really constructed all five regular solids, suggesting instead that it is more reasonable to assume that he constructed just three of them. Some ancient sources attribute the discovery of the Pythagorean theorem to Pythagoras, whereas others claim it was a proof for the theorem that he discovered. Modern historians believe that the principle itself was known to the Babylonians and likely imported from them. The Pythagoreans regarded numerology and geometry as fundamental to understanding the nature of the universe and therefore central to their philosophical and religious ideas. They are credited with numerous mathematical advances, such as the discovery of irrational numbers. Historians credit them with a major role in the development of Greek mathematics (particularly number theory and geometry) into a coherent logical system based on clear definitions and proven theorems that was considered to be a subject worthy of study in its own right, without regard to the practical applications that had been the primary concern of the Egyptians and Babylonians. [2][3]

Hellenistic

The Hellenistic period began in the 4th century BC with Alexander the Great's conquest of the eastern Mediterranean, Egypt, Mesopotamia, the Iranian plateau, Central Asia, and parts of India, leading to the spread of the Greek language and culture across these areas. Greek became the language of scholarship throughout the Hellenistic world, and Greek mathematics merged with Egyptian and Babylonian mathematics to give rise to a Hellenistic mathematics.

The most important centre of learning during this period was Alexandria in Egypt, which attracted scholars from across the Hellenistic world, mostly Greek and Egyptian, but also Jewish, Persian, Phoenician and even Indian scholars.[6]

Most of the mathematical texts written in Greek have been found in Greece, Egypt, Asia Minor, Mesopotamia, and Sicily.

The Antikythera mechanism, an ancient mechanical calculator.

Archimedes was able to use infinitesimals in a way that is similar to modern integral calculus. By assuming a proposition to be true and showing that this would lead to a contradiction, he could give answers to problems to an arbitrary degree of accuracy, while specifying the limits within which the answer lay. This technique is known as the method of exhaustion, and he employed it to approximate the value of π (Pi). In The Quadrature of the Parabola, Archimedes proved that the area enclosed by a parabola and a straight line is 4/3 times the area of a triangle with equal base and height. He expressed the solution to the problem as an infinite geometric series, whose sum was 4/3. In The Sand Reckoner, Archimedes set out to calculate the number of grains of sand that the universe could contain. In doing so, he challenged the notion that the number of grains of sand was too large to be counted, devising his own counting scheme based on the myriad, which denoted 10,000.

Greek mathematics and astronomy reached a rather advanced stage during Hellenism, with scholars such as Hipparchus, Posidonius and Ptolemy, capable of the construction of simple analogue computers such as the Antikythera mechanism.

Achievements

Greek mathematics constitutes a major period in the history of mathematics, fundamental in respect of geometry and the idea of formal proof. Greek mathematics also contributed importantly to ideas on number theory, mathematical analysis, applied mathematics, and, at times, approached close to integral calculus.

Well-known figures in Greek mathematics include Pythagoras, a shadowy figure from the isle of Samos associated partly with number mysticism and numerology, but more commonly with his theorem, and Euclid, who is known for his Elements, a canon of geometry for many centuries.

The most characteristic product of Greek mathematics may be the theory of conic sections, largely developed in the Hellenistic period. The methods used made no explicit use of algebra, nor trigonometry.

Transmission and the manuscript tradition

Although the earliest Greek language texts on mathematics that have been found were written after the Hellenistic period, many of these are considered to be copies of works written during and before the Hellenistic period. Nevertheless, the dates of Greek mathematics are more certain than the dates of earlier mathematical writing, since a large number of chronologies exist that, overlapping, record events year by year up to the present day. Even so, many dates are uncertain; but the doubt is a matter of decades rather than centuries.

During the Middle Ages, Europe derived much of its knowledge of Greek mathematics via Islamic mathematics. The texts of Greek mathematics were for the most part preserved and transmitted in the Muslim world. For instance, the oldest surviving Latin version of Euclid's Elements is a 12th century translation from Arabic.

See also

Footnotes

  1. ^ Heath. A Manual of Greek Mathematics. p. 5.
  2. ^ a b c Boyer & Merzbach (1991) pp. 43-61
  3. ^ a b Heath (2003) pp. 36-111
  4. ^ Such as Hans-Joachim Waschkies and Carl Boyer
  5. ^ Hans-Joachim Waschkies, "Introduction" to "Part 1: The Beginning of Greek Mathematics" in Classics in the History of Greek Mathematics, pp. 11-12
  6. ^ George G. Joseph (2000). The Crest of the Peacock, p. 7-8. Princeton University Press. ISBN 0691006598.

References

  • Szabo, Arpad The Beginnings of Greek Mathematics (Tr Ungar) Reidel & Akademiai Kiado, Budapest 1978 ISBN 963 05 1416 8

External links

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