Search results

From Self-sufficiency
Jump to: navigation, search
  • ...ide fuel cells], Ph.D. Thesis by Florian Nagel, Swiss Federal Institute of Technology Zurich, 2008</ref>. Most of these engines have severe purity requirements o ...ide fuel cells], Ph.D. Thesis by Florian Nagel, Swiss Federal Institute of Technology Zurich, 2008</ref>.
    11 KB (1,707 words) - 17:26, 24 June 2010
  • Gasification was an important and familiar 19th and early 20th century technology, and its potential and practical applicability to [[internal combustion eng ...the subject that can sate the appetite of one interested in the history of technology or serve the amateur experimenter well, even dated as they are.</ref>
    11 KB (1,818 words) - 18:04, 24 June 2010
  • ...ntended to give [[infantry]] units a means to destroy or disable [[armored vehicle]]s and [[fortification]]s, although it is not generally sufficient to defea ...Packing a Punch: America's Man-Portable Antitank Weapons" page 90 Military Technology 3/2010 ISSN 0722-3226</ref>
    23 KB (3,570 words) - 19:53, 1 July 2010
  • ...nk]] missile system based on the [[M113 armored personnel carrier|M113]]A2 vehicle. It is manufactured by the [[Switzerland|Swiss]] company [[Oerlikon-Contrav ...[[Forward looking infrared|Forward Looking Infrared]] (FLIR). The carrying vehicle has also a conventional two-dimensional radar with an effective range of ov
    7 KB (1,002 words) - 20:26, 1 July 2010
  • ...s and other individual targets while minimizing the exposure of the launch vehicle to enemy fire. It is to be the main weapon system of the [[Eurocopter Tiger ...AN|MILAN 3]]'' firing posts and the ''Trigat-MR'' missile.[http://www.army-technology.com/projects/milan/]
    3 KB (442 words) - 20:26, 1 July 2010
  • |Image= http://www.army-technology.com/projects/mbt_law/images/mbtlaw_1.jpg <!-- Vehicle specifications -->
    4 KB (620 words) - 20:26, 1 July 2010
  • |launch_platform=Individual, Vehicle ...Heavy Anti-Armour Missile, France|author=|date=|accessdate=|publisher=Army-Technology}}</ref>
    15 KB (2,342 words) - 20:27, 1 July 2010
  • <!-- Vehicle specifications --> ...f Hannibal Ford and William Newell | publisher =Massachusetts Institute of Technology| work= IEEE Annals of the History of Computing | date = Vol. 15 No. 2, 1993
    11 KB (1,707 words) - 21:14, 1 July 2010
  • <!-- Vehicle/missile specifications --> ...ese didn't actually manufacture any of these torpedoes, but combined their technology with the results of independent Japanese research to produce the ''61 cm Ty
    5 KB (655 words) - 08:54, 19 September 2010
  • <!-- Vehicle/missile specifications --> ...was designed around this "vertical gun", but the project ran into serious technology/cost problems and was radically scaled back to a more conventional 6.1&nbsp
    7 KB (1,033 words) - 15:45, 3 July 2010
  • ...These [[bombs]] can be [[Breech-loading weapon|breech-loaded]] within the vehicle on which the mortar is mounted, or drop-loaded in the usual mortar fashion. **[[Military technology and equipment]]
    2 KB (286 words) - 22:05, 1 July 2010
  • ...ked tube carrier GFU-8/E 30&nbsp;mm Ammunition Loading Assembly cart. This vehicle is unique to the A-10 and the GAU-8.<ref name="zombie">{{cite web|url=http: Some of the GAU-8/A technology has been transferred into the smaller 25&nbsp;mm [[GAU-12 Equalizer|GAU-12/
    14 KB (2,240 words) - 19:12, 2 July 2010
  • <!-- Vehicle/missile specifications --> ...oved barrel]] Due to the continuing evolution of both threats and computer technology, the Phalanx system has, like most military systems, been developed through
    26 KB (3,744 words) - 20:11, 2 July 2010
  • ...ehicles, as it allows a gunner to remain in the relative protection of the vehicle. It may also be retrofitted onto existing vehicles, for example, the [[Comm ...itle=MTS Lance – Rheinmetall’s new modular turret system: Cutting edge technology, systematic modularity|publisher=Rheinmetall Defence}}</ref>
    4 KB (542 words) - 20:26, 2 July 2010
  • ...le sensors. On the [[US Marine Corps]]' Gladiator Tactical Unmanned Ground Vehicle (TUGV), equipped with a [[7.62 mm]] [[M240]] and day/night sensors. *US Marine Corps [[Gladiator Tactical Unmanned Ground Vehicle]] (TUGV)
    3 KB (365 words) - 20:29, 2 July 2010
  • *[[List of Combine combat technology in Half-Life 2#Turret|Sentry guns in Half-Life 2]] [[Category:Vehicle weapons|*RWS]]
    8 KB (1,229 words) - 20:30, 2 July 2010
  • |launch_platform=Vehicle |target=Vehicle
    7 KB (974 words) - 20:34, 2 July 2010
  • <!-- Vehicle/missile specifications --> ...sides in the aft of the torpedo, was really the innovation of the torpedo technology world. It was the breakthrough for aerial torpedo. Type 91 rev.2 aerial tor
    63 KB (9,925 words) - 20:39, 2 July 2010
  • {{redirect|NaCl|the Google technology|Google Native Client}} ...i?ID=C7647145&Type=THZ-IR-SPEC&Index=1 National Institute of Standards and Technology: Sodium Chloride]</ref>
    19 KB (2,579 words) - 15:51, 27 September 2010
  • ...is unavoidably interrupted by the engine cowlings acting as [[blind spot (vehicle)|blind spot]]s.<ref name="Mod p629">''Flight'' 30 June 1938, p. 629.</ref> ...ite web|last1=Treweek|first1=Phillip|title=Taranaki Aviation Transport And Technology Museum (TATATM)|url=http://www.kiwiaircraftimages.com/mustatm.html|website=
    37 KB (5,369 words) - 20:55, 17 February 2018

View (previous 20 | next 20) (20 | 50 | 100 | 250 | 500)