航空论坛_航空翻译_民航英语翻译_飞行翻译

 找回密码
 注册
搜索
楼主: 帅哥
打印 上一主题 下一主题

航空缩略语词典 [复制链接]

Rank: 9Rank: 9Rank: 9

131#
发表于 2008-12-25 20:26:30 |只看该作者
Weapon 3 B' K( w% d/ e5 e7 _Engagement ! ]9 Q- w# a1 b% I, cZone 6 m. r, J, V$ DIn air defense, airspace of defined dimensions within which the responsibility2 v6 k% s6 W+ m4 d6 w9 h! W normally rests with a particular weapon system. 1 S4 B9 Z6 }" FWeapons ) ?; }6 |- k; W* ~0 l& nAllocation4 ~- O) Z; K- y, N& ]) O) [ Designation of a certain weapon to attack a certain threat after Engagement 5 {/ O1 ~) S7 I$ eAuthorization is given.8 e8 K& H0 x0 J Weapons8 B* p6 k0 K9 y. i H" W- o+ ^ Assignment1 I2 _1 ?) V% d8 Z/ u# E& T In air defense, the process by which weapons are assigned to individual air 8 y9 |4 Q* P/ z$ X F: cweapons controllers for use in accomplishing an assigned mission. Assignment+ z% M _) z0 t0 a2 n' A of a particular interceptor to a particular target.2 [3 c- y7 y* o% H Weapons/ d% L }0 Y) |0 h# T' \8 ` Commitment0 q2 ^; C) h: c" j+ f Authorization to allocate certain weapons to designated targets thus permitting 0 d- _ P$ v- m4 b9 |- bchecklist actions to be taken.) }6 l1 K: g: I1 D( _ Weapons Control The varying degree of formal control an area air defense commander exercises2 W, X$ ?4 H D M+ D! s$ p$ n over all air defense weapons in his area of responsibility.5 V3 T* w) b+ V. }8 {! K Weapons: D& k3 Y8 G5 m2 i. i" k. Z( R Enablement - s( g2 q+ g) d# jAuthorization to place a weapon into its most ready state but prior to release.+ V1 t$ f+ O7 v" f: g7 @6 j& s Weapons Free A weapon control order imposing a status whereby weapons systems may be 6 r1 H7 E% G7 T, {fired at any target not positively recognized as friendly.: H# m- v. [ U MDA GLOSSARY, VER. 4.0 W # I9 B0 U* H F+ y321# m/ w- G! B9 r6 X$ C- l( l Weapons Hold A weapon control order imposing a status whereby weapons systems may be* G6 e3 a. u5 o2 E5 h$ N fired in self-defense or in response to a formal order. 1 U9 ]" Q$ u: D) v; h/ VWeapons & ~" N. u4 L/ k, Q/ oInitiation `' G% H, N# [8 J State when a weapon system is to be placed in the highest state of readiness) m" {* p U2 O4 t/ {: F shy of weapon allocation. It is possible to go direct to weapons allocation or: K, L% y5 L6 c$ P3 I& A9 ]2 _9 i7 F release without first initiation or allocation.) |3 W/ u- O+ v( _( L) B Weapons of Mass - u1 P; K; n% C! fDestruction , G: [0 V0 l' w# N8 P8 n(WMD)) Z% U6 j& B/ @7 s5 s% {% k* i* F In arms control usage, weapons that are capable of a high order of destruction- E* `" t" N* o5 \$ r8 L3 \ and/or of being used in such a manner as to destroy large numbers of people. 5 ^. U. V2 T3 l$ v+ W0 yWeapons # U' S8 b% U. v& v; pReadiness State 7 a# h! |1 Q8 wThe degree of readiness of air defense weapons which can become airborne or- H( W) |3 \5 h t be launched to carry out an assigned task. Weapons readiness states are + ~* |7 [0 ?8 k0 Fexpressed in number of weapons and number of minutes. 4 C' u1 m. i" R. b4 UWeapons 1 F( z) O6 L+ w3 d$ {, ^9 CRelease & e" q% t7 F+ f6 eAuthority (WRA), w M8 E% y0 G D The order that gives weapon controllers the authority to fire. (USSPACECOM) ) _ G& Z$ d {+ I6 |4 O' Y7 O+ sWeapons System Items that can be used directly by the armed forces to carry out combat missions ( L1 f/ f# {- K4 u2 M; `# t! land that cost more than $100,000 or for which the eventual total procurement 4 i# O) P( p8 V5 P& u; lcost is more than $10,000,000. That term does not include commercial items* h" Y% E: X% z" T5 w# [0 j sold in substantial quantities to the general public.7 r# Z$ {& @( U; q- |* q3 g Weapon System 6 w/ P4 [2 d; D0 J+ Y5 i5 ~$ LControl: h; b8 R$ E' A8 ~' C+ I% A That set of assessment, decision, and direction functions normally implemented . U+ H2 g& G1 X+ C7 P6 s lautomatically to assure that individual weapons are pointed, fired, and guided as" }) O6 y1 P: _1 k- W+ V- o necessary to intercept the designated attackers. + W4 ~1 x) h, g% w% Y. WWeapon Target : X. a7 L1 _4 U0 zAssignment ! p: n& i$ y5 Z. p9 K& ^* }5 ~+ _(WTA)$ E0 @& l! ]+ h# Z The assignment of an interceptor to a particular threat object. In Midcourse, a : t [ u! t' I$ uWTA requires in-flight communication between the Battle Manager and an inflight interceptor. To ensure the Battle Manager maintains the ephemeris of the' z- Y% W. P9 ?3 Y. y; e/ ] interceptor, the WTA will constraint the interceptor’s flight error. 6 s# o) C ~1 V! ?/ tWeapons Tight A weapon control order imposing a status whereby weapons systems may be7 O: _. e x: M fired only at targets recognized as hostile.$ E% R, [) _/ W- N- J Weapons System 6 P: O0 B3 c% v! X* iEmployment 9 ?- w3 p4 P$ t# zConcept 2 h2 F' h& _. x4 ], _ GA description in broad terms, based on established outline characteristics, of the |* Y# l( y0 X- l4 o7 oapplication of a particular equipment or weapon system within the framework of0 P h; x, }' s+ p. J( l# P tactical concept and future doctrines.% ]# S* \% U1 [& n3 I ?) K1 o Western Test3 ~6 C5 r$ q% v Range (WTR) ( z! y x2 ]6 x# e, j6 u# \Beginning at Vandenberg AFB, CA, this range stretches halfway around the 7 k4 j" L+ S& v8 q, gglobe where it meets the Eastern Test Range. An array of launch complexes, - X' L0 ?% E& \& v8 r, xsensors, and tracking sites makes up the Western Test Range. It is operated by # v7 @& b) j p6 p5 Gthe Space and Missile Test Organization (SAMTO), a unit of AFSPACECOM as ' D! U Z; I+ Mof 1 October 1990.1 P6 @# |$ N0 x; z: N5 L WESTPAC Western Pacific. $ W0 c. F, Z% \$ q4 _9 f7 sWEU Western European Union * ~. w. P0 y! d: ?. Q% t( \" ?4 E: hWEZ Weapon Engagement Zone. 1 k# Z$ a# V3 e gWFF Wallops Flight Facility, Wallops Island, VA. - x' b+ R2 l( H6 q( T; HWFOV Wide Field of View.& w6 v! p7 h2 C( C8 k- s WFX Warfighter Exercise. 3 C5 [0 i' F0 q7 W9 _5 tMDA GLOSSARY, VER. 4.0 W ( r" q4 g" ?! r$ P322. h' l1 M g" E C WG Working Group. 7 S6 Y/ @- P, s" \, z+ X, Z3 pWGET Working Group on Encryption and Telecommunications. $ u6 x/ N) h6 \2 I3 R h4 NWH White House.6 R7 c6 a8 O0 r5 u& l+ r. S5 L WHDEVAL Warhead Evaluation.

使用道具 举报

Rank: 9Rank: 9Rank: 9

132#
发表于 2008-12-25 20:26:42 |只看该作者
WILTEL Williams Telecommunications Group Incorporated. 4 C1 W; ^/ W* W. ~9 b2 G1 b- fWing Control4 }" }& }1 a @! H% a Center (WCC) - d8 n5 ~; Z/ w3 [) yA second Space Wing center that logistically/administratively controls operational1 k8 R6 b9 a8 ` satellite systems operated by them at worldwide locations. ) N. [. k. x0 W/ |' d; v) q5 X# xWIPT Working-level Integrated Product (Process) Team. A/ }3 F9 N; x. C$ J4 ^2 x; v& }0 h WIS WWMCCS Information System.4 W- h. F/ W4 t; C; v8 g Withhold 1. A term used in a pre-planned response option (PRO) to identify the, R, y% |( C# W' i withholding of part of the space or ground weapon inventory against detected) s1 P P. p% l! l threat launches, in anticipation of follow-on attacks. 2. (Nuclear) The limiting of+ ^' j) F: K* f1 |- d& T authority to employ nuclear weapons by denying their use within specified! t! A% z/ b1 c3 I$ {3 A# N1 s. X geographical areas of certain countries. : _& G" b( d" ^* F9 r- P$ B6 M; {WL Wright Laboratory, Wright-Patterson AFB, OH.% D) D0 `" h2 P WLR Weapons Launch Report.: n3 `1 I, u8 u6 i WMD Weapons of Mass Destruction. # Q* |# j7 _7 SWMF Windows Metafile.5 a! \- T; F. m WMP War and Mobilization Plan. $ P8 j. ^% k# e) {WNINTEL Warning Notice - Intelligence Sources or Methods Involved. . y; Y; b; Z; C+ {- r) w" MWOC Wing Operations Center.2 D7 o% Q% d7 a) e2 n WON Work Order Number.6 [" J ?) N: N+ k' Z/ z+ l% t/ H Work Breakdown 6 e) e( V% Y: l) J2 X2 H. wStructure (WBS) " T! u1 k1 S" m6 E8 c4 M(1) A product-oriented family tree division of hardware, software, services,. s+ K. Y8 \6 o% O6 ?7 Q3 F! |0 j w and other work tasks which organizes, defines, and graphically displays 4 _. u) l* s$ i9 ]/ _* M% ythe product to be produced, as well as the work to be accomplished to) o$ @7 f9 O( f8 z9 i% M6 Q achieve the specified product. 2 i# }( K& S4 ?: K(2) A hierarchical diagram used to depict the tasks, capital, and resources. C) c4 s( [: M5 ~0 |% A required during the development of a product.% u9 B% z6 s4 y6 {6 x Work Packages Detailed short-span jobs, or material items, identified by the contractor for# M8 l" b, z8 A6 x; I5 I accomplishing work required to complete the contract. : E ~+ K) z2 Y. P4 R; ]/ q7 _& EWorldwide( |5 b5 h+ ]7 w! }# V. s4 C6 i$ h3 q Indications" W8 Z8 {7 G) }2 } Monitoring) K9 g `" q- u% i System (WWIMS)1 m, }+ q+ k, G- r+ S A confederation of national, unified, and specified command and other ; \4 C. \. B& O" M1 Q2 t. V6 t/ aintelligence centers and facilities. The primary mission of the WWIMS system is , C" z# C' g5 vto monitor, maintain, and report on Indications and Warning (I&W) activity. 5 u( P0 m: ^( @, @MDA GLOSSARY, VER. 4.0 W 2 R1 P) \. [! W4 N9 [; s2 `323 . N3 A6 N% l" G: [/ s5 aWorld-Wide c+ [: s' c- J Military ' \! k" @4 k( _ ]Command and" w T" n1 \# l; ~$ @ Control System % ~& b$ \4 ~- P: Z8 H6 [* C& q# Q(WWMCCS) % t4 X( O) ~* q! o. sThe system that provides the means for operational direction and technical 3 A# A" Z9 R9 Q, p6 }administrative support involved in the function of command and control of U.S." T% G6 } k! g2 b military forces. The system comprises: The NMCS - The command and control + u! y# V& P. v: ]' Usystems of the unified and specified commands - The WWMCCS-related ) F# P5 \0 J3 S: l0 Q* Q Q* _4 g2 fmanagement/information systems of the headquarters of the Military - A3 O8 j3 y! E, x2 p! aDepartments - The command and control systems of the headquarters of the/ r( E9 Y! j6 F' l g0 h service component commands - The command and control support systems of 8 s& I& l, u2 V4 qDoD agencies. The system furnishes a multi-path channel of secure + R* h4 ~% |4 rcommunications to transmit information from primary sources to those who must: |2 L7 {2 X- {% f, L make decisions (including the President) and to transmit their decisions (in the* d3 H$ R: W; s; o form of military orders) to subordinates. $ R0 O$ Z6 T: O; Q( eWP (Former) Warsaw Pact Countries.' K" V/ E7 }9 t3 ?8 Q WPAFB Wright-Patterson AFB, Dayton OH.- p2 L* \( m X" @, `5 } WPC Warsaw Pact Countries. . X; d( j/ ^" x# l, R: FWPD Work Package Directive.. V$ Z8 s% h, W1 { WPN Weapon Procurement Navy.' m/ m' K' T1 d3 x" ?' x WR Western Range. . U0 l9 \. a% H6 S* y* ~# _* P- d; EWR/VAFB Western Range/Vandenburg Air Force Base. 8 ]3 |8 B6 `( U; V) Y" L z/ Y5 EWRA See Weapons Release Authority.& ^( C" A. m; O- t" D7 i WRM War Reserve Materiel.5 @: v# c9 G+ [; [5 M+ E WRSK War Reserve Spares Kit., D& D. |3 p6 k- }5 j WRTTM Warhead Replacement Tactical Telemetry Module (USAF term). 8 s# W1 n" E7 z, C" j- K/ UWS Warning System., e4 ^) o+ x" K+ y WSE Weapon Support Equipment. 5 l& G2 S! @6 C" t kWSEM Weapons System Evaluation Program. / r+ d4 d7 L6 z& k( I) [WSESRB Weapons System Explosive Safety Review Board.3 N! p, g) B# f# |; T7 \ WSI Wafer-Scale Integration. ' l+ Y6 d6 Y8 i& fWSM Waterspace Management (USN term). 9 D5 `9 ~2 B# P1 R: iWSMC Western Space and Missile Center, Vandenberg AFB, CA.7 k9 ~0 l7 @+ y WSMR (1) White Sands Missile Range, NM (2) Western Space and Missile Range.# [ a. ^, a* p2 p/ J/ P WTA Weapon Target Assignment.8 ~% G; P2 ]7 w: l WTO Warsaw Treaty Organization. 3 @" a( d; I* g# `4 E1 ~* eWTP Weapon Test Plan. h( R: T+ m* c6 `8 cWTR Western Test Range., O( E' l- l1 ?8 i5 H8 G MDA GLOSSARY, VER. 4.0 W2 O5 O' ]' L( Y) } 324 ) ^% [# e' |1 B/ X p0 G8 j' mWUC Work Unit Code (ILS term).( k- W& e1 }1 G7 `; x8 y9 ~3 h WWABNCP Worldwide Airborne Command Post.

使用道具 举报

Rank: 9Rank: 9Rank: 9

133#
发表于 2008-12-25 20:26:53 |只看该作者
WWG Wideband Waveform Generator. 8 T- \; { k* k2 I# G+ Z: bWWIMS See Worldwide Indications Monitoring System.8 ^& x2 [- L. n' Q3 y- } WWMCCS See World-Wide Military Command and Control System. 7 C( v3 l. l7 a2 ?9 J M: L. ~2 u2 NWWW World Wide Web. : ]! L ~/ J; U3 z3 jWX Weather.' B0 \5 c0 Q* v9 u# [6 C MDA GLOSSARY, VER. 4.0 X,Y,Z+ \# o! L8 h: |% n 3255 K5 r' `3 w2 J8 R X-ON/X-OFF Transmitter On/Transmitter Off (Telecomm/Computer term).# b# z" ?! h% D* w X-Ray Laser1 k" K$ J% R1 a, Q: X- X (XRL)/ W& j& H8 p+ I. v( S/ A( f8 V A laser that generates a beam or beams of x-rays. Also called an "X-raser."" \1 i* Z- ?8 [" W; g* _ X-Rays Electromagnetic radiation of high energy, which results from either the release of 4 d. B; r% C# L, B1 e, ienergy from electrons changing orbits about the nucleus (discrete) or the inelastic collision of charged particles with the electromagnetic field of the nucleus. 3 }0 I7 m/ I t- b$ ^/ H# ^X-rays have wavelengths shorter than those in the ultraviolet region, e.g., less 0 k( d. @7 H9 X# P" ~" g+ R8 Dthan 10E-6 cm or 100 Angstroms. Materials at very high temperatures (millions : L- c2 P% F0 g8 jof degrees) emit such radiations; they are then called thermal x-rays. As / c1 w; R( U! f, g7 `$ Vgenerally produced by x-ray machines, they are "bremsstrahlung" resulting from2 O! _. [, s# v2 h/ B/ x the interaction of electron of 1 kilo electron-volt or more energy with a metallic6 b; ?' B9 g8 s6 ~9 p" O" B3 D0 I target. (See Electromagnetic Radiation and Thermal X-Rays.)3 W R- n. v2 }& d- S6 C XBR X-Band Radar.5 B8 Q$ m8 j; L6 r XCVR Transceiver.2 s1 M# i5 Z; N0 S! T, k XDS Exoatmospheric Defense System.( R+ j& E& J5 o XGA Extended Graphics Array. 8 L2 @- h' Y+ ^' g5 e4 Z2 f) w# a' UXIWT Cross Industry Working Team.! l- Z$ Q0 n9 k) X2 k XMTR/CVR Transmitter/Receiver. d7 D8 V& }% I# Z6 V. fXO Executive Officer.& S/ X3 [: V" N, q' d `' q# ` XoDis Exoatmospheric Discrimination.8 Z9 S& r( \4 r5 ~ XOX Assistant Deputy Chief of Staff for Operations (Office Code). 8 k6 k' s* F- z! B. bXRL See X-Ray Laser.1 j# s. {1 E; z Q8 { XRS USAF/ESC Staff Symbol. . n/ }; X* |5 ]. Q" GXTB Exoatmospheric Test Bed.9 i3 }/ k7 c( |2 K& L XTV Experimental Test Vehicle. * d2 b8 `" K- W8 i kXwindows Unix graphics interface. - N, b& d+ b% y& y3 @Yield (or Energy n v8 c2 v9 {; e$ [3 W8 _ Yield) 4 t0 J2 f4 [2 b, T6 r' GThe total effective energy released in a nuclear (or atomic) explosion. It is * ~; M7 T0 h' n! x" W" O& y+ Y7 r+ E$ {usually expressed in terms of the equivalent tonnage of TNT required to produce2 }5 y6 @$ O' v the same energy release in an explosion. The total energy yield is manifested 7 [1 H) \ q% Q0 Tas nuclear radiation, thermal radiation, and shock (and blast) energy, the actual% d' n7 K. d, O# ^* d$ b distribution being primarily dependent upon the medium in which the explosion ; a5 Z6 b& e- u$ y# b6 {9 F( }9 M+ Woccurs, as well as the type of weapon and the time after detonation.$ Y. I5 K: b4 l0 A- }1 H: o Zero Point The location of the center of a burst of a nuclear weapon at the instant of ( V: w+ z0 z& ^: \. Y0 }: T0 odetonation. The zero point may be in the air or on or beneath the surface of0 Z# G' H4 m1 T0 i! ^ land or water, dependent upon the type of burst; it is thus to be distinguished # ?! q/ D3 o1 [: V$ Kfrom ground zero. ' z: f3 n; A" R4 u/ pZIF Zero Insertion Force.4 D7 k2 x8 p* X/ x( M ZULU Time Zone Indicator for Universal Time.2 e% g g& q I8 E& A MDA GLOSSARY, VER. 4.00 D% Q! c7 H+ s* y 326 7 A; I" D. |( J4 H3 K9 H% N9 OUnits of Measurement! G) q/ n) y% p& } Keyword/Symbol Unit Name Aspect Measured / Z" y$ r" J2 z$ C% ^: I[ a ] ampere electric current 6 f, f3 E1 X [. E0 M+ b[ angstrom ] angstrom length ; {1 P- [# Q9 P' k[ b ] bit binary digit 0 or 1 6 r) X( D0 J& O$ }( o# d+ a3 a[ bps ] bit per second bit transfer rate . t7 P! d S. i* r$ Q9 D[ C ] coulomb electric charge, p. r6 Z* u6 l7 S* V3 O$ F, M [ c; Ci ] curie radioactivity* w( j4 Q1 J; a t [ cal ] calorie energy 4 o2 \! y2 N/ S$ W8 E, J& V% S* l# a[ cal/sq cm ] calorie per square energy per area" U2 Q% D" _" Y centimeter 6 U$ I, Y5 J% d- [" G[ chan ] channel frequency path4 q% v4 Q5 f0 T3 J [ cm ] centimeter length

使用道具 举报

Rank: 9Rank: 9Rank: 9

134#
发表于 2008-12-25 20:27:02 |只看该作者
[ cu cm ] cubic centimeter volume% Q' }$ _# g2 Y, J/ f% l$ v [ dB ] decibel signal strength/ _8 N# K5 y1 h3 W; J [ deg ] degree plane angle ' {2 \1 c* u+ s5 t! I$ E[ deg K ] degree, Kelvin temperature% b6 K! b% g, M* M7 s! s7 o [ deg/s ] degree per second plane angle change rate& g& N! N ~8 w" } [ deg/s/s ] degree per second slew acceleration e6 m6 } ]* }2 c) r% n( }per second - q0 I4 Q7 o1 o! e) Q6 V; r, r4 z[ diam ] diameter length ( Y x2 Y, x# X7 n1 F* d[ dyn ] dyne force 3 M* l; c" o' l4 ]0 e: h[ eV ] electron-volt energy3 B1 b6 c5 d# w- M: X8 z. h8 s! `$ I [ G ] gauss magnetic flux density 3 d7 P; P. {7 H; g1 h[ g ] 1) 9.808 meters per sec- 1) gravitational acceleraond per second; 2) gram tion constant; 2) mass : N/ w6 R' D4 d; t[ GHz ] gigahertz frequency4 y. `6 \( @4 C2 r+ \/ d1 b( S1 _ [ Gy ] gray absorbed dose 4 V0 o% P6 ~# u4 M7 f[ h ] hour time; ]7 V6 C' s- D7 p( Y" b1 d6 W [ Hz ] hertz frequency 0 L7 E( b0 c# v/ D; a( P1 v( V+ U) [4 Y[ J ] joule energy 1 q' v+ I, s8 b2 V9 F[ J-T ] Joule -Thomson temperature change. a1 i7 Y+ ^; B [ K ] Kelvin temperature9 P# x* T1 v5 y7 o- X [ kA ] kiloampere electric current 5 w6 U8 C- C# J4 `: ^[ kb ] kilobit binary digit # A: J: T/ @- C[ kb/s ] kilobit per second velocity (binary digit) L" r) P, c/ K+ y9 k7 N[ KeV ] kiloelectron-volt energy 0 m( V% j2 s$ F[ kg/sq m ] kilogram per square pressure ! Q. |; \' ]4 C/ Rmeter + J" y1 A- e) O i4 w: z Z[ KHz ] kilohertz frequency) c" S! Q8 w5 X" | [ kJ ] kilojoule energy % R6 w( \% l1 \. E[ kJ/kg ] kilojoule per kilo- specific energy 6 {8 [( `$ [3 Cgram G( c3 X/ Z1 l6 Y" h9 Q, }7 ` v[ kJ/sq cm ] kilojoule per square laser lethality ; U( }3 B+ q% b" a* b6 Qcentimeter: o# F* P. F5 m [ km ] kilometer length7 s( F9 \: S' @ [ km/s ] kilometer per second velocity # Y6 {1 a4 F- z4 s( c* o[ KT ] kiloton yield1 @4 f) |6 _- K s- d [ kV ] kilovolt electromotive force ; c8 e( b, p' }$ g- D& b0 b[ kW ] kilowatt power M0 K8 y z, G: V- I6 R" U [ kW/kg ] kilowatt per kilogram specific power; r* Y7 A5 R+ G% V( g+ r2 i( P Keyword/Symbol Unit Name Aspect Measured1 g% ?' I* W' Y) E- J3 \ MDA GLOSSARY, VER. 4.0 2 K) u( l: K# [: Z2 k# l327 2 z3 N) |! @3 R4 }) e+ M8 g+ i9 C[ kW/m ] kilowatt per meter thermal transport) f4 h5 W- L! S [ kW/sq cm ] kilowatt per square energy flux ; [/ b5 |0 A6 U) u+ \+ E! f6 Gcentimeter) l+ F+ m3 G# u! L; O6 U6 Y [ m ] meter length : r' i q1 ?: Z I7 ?, ^# Q[ Mbps ] megabit per second bit transfer rate 5 a! {8 ?. U1 i' A[ MeV ] megaelectron-volt energy. v- |. K5 T0 Z8 N, B [ MFLOPS ] million floating point processing performance8 ~. v* [* @. ^3 h: h; a0 d operations per second 9 u+ s) u3 s( V/ M3 ?/ C[ MHz ] megahertz frequency& d, ~) x6 `! \) w, i& z [ micro ] micro a one-millionth part5 @7 v& O1 E8 F [ micron ] micrometer length ! Y: X- |& |% k! \[ milli ] milli a one-thousandth part . H( D; O8 s! Z9 j; M% f; r3 [mJ millijoule6 C$ k% G5 K8 _9 D* q [ min ] minute time $ U+ r5 o1 ?1 [2 i[ mips ] million instructions processing speed 5 v% N$ v9 @- Bper second 4 B) i( U, z" z$ {: }7 R5 b7 @) o[ MJ ] megajoule energy 5 h4 U c2 S8 n0 E6 L/ h% G0 J8 M2 T[ mm ] millimeter length" m% Y* q1 N" K- t [ mops ] million operations processing performance3 L1 A9 S F+ ~" X) e, e2 q per second k0 j4 N$ K7 ~. d8 K[ mrad ] milliradian plane angle8 m8 ^0 S. Q9 k [ m/s ] meter per second velocity 8 L& m) U0 k/ q9 D |; r[ ms ] millisecond time, ?& i7 o2 X A8 P* J& T6 j- t% X [ MT ] megaton yield2 ^. k8 ^( k: V2 { [ MV/m ] megavolt per meter electric field strength/ E8 C1 F+ n4 h4 k [ MW ] megawatt power2 n# `& s$ k' ?2 D: l; f [ MW/sr ] megawatt per steradian laser brightness5 e0 K% L9 _0 V6 L& l( L% f* O [ N-s ] newton-second force ' q' \3 @! }5 @[ ns ] nanosecond frequency * Q* A# H! G0 Z& W* g% O, R[ parsec ] parsec astronomical distance3 @% H( L+ Q' Z! p" }: U [ Pa-s ] pascal-second pressure7 F( O4 q7 u3 N' P' | [ R ] roentgen radiation dose 8 P+ y1 k- {- w9 V1 a8 } I/ u[ RAD ] rad absorbed dose- P( T0 G I0 I7 g3 s [ radian ] radian plane angle 0 c7 v& \6 G* ^" w[ rad/s ] radian per second angular drift6 B+ _0 s6 J1 T; Q2 J) k q8 x* ] [ ratio ] percentage efficiency + Q2 _' `$ {3 G) [3 `[ rem ] rem ionizing radiation 4 x2 u4 u+ U5 ?; H+ U) {. V- X: {[ s ] second time, N0 K6 ]. {! |7 h3 e [ sq m ] square meter area % k2 `4 j1 A& N0 i" b9 x! Y& D. x[ sq m/yr ] square meter per year area per time1 _$ @3 V1 B5 N7 e$ S! q* f [ sr ] steradian absorbed radiation dose 1 h* H) b% T# ] c. B2 Z[ mrad ] microradian plane angle 8 W2 _+ q2 N9 D2 H( u[ V ] volt electromotive force ; r5 ~' O, m! }[ W ] watt power ; C# A) N. Y! Q8 t[ W/kg ] watt per kilogram specific power 1 {3 e* q( R0 }! r! h* n6 j[ W/sq cm ] watt per square heat flux / q( ]8 U l7 Z* [centimeter" X, o+ U6 K. \% ^* G4 a5 T- O% K* G [ W/sq m ] watt per square meter energy flux ( U6 p. D' J# f) k[ W/sr ] watt per steradian radiant intensity : r" h) e9 k# t* V[ W/sr sq m ] watt per steradian radiance4 }' W0 o4 O0 I square meter 1 ?3 }# a1 y; N8 {! I* k[ yr ] year time

使用道具 举报

Rank: 1

135#
发表于 2009-10-29 10:20:38 |只看该作者
Looking for it.

使用道具 举报

Rank: 1

136#
发表于 2009-10-29 20:57:54 |只看该作者
ddddddddddddddd

使用道具 举报

Rank: 1

137#
发表于 2009-10-31 20:51:55 |只看该作者
是可以输入查找那种吗?

使用道具 举报

Rank: 1

138#
发表于 2009-11-2 14:02:00 |只看该作者
ddddddddddd

使用道具 举报

Rank: 1

139#
发表于 2009-11-4 21:40:20 |只看该作者
i want see it!

使用道具 举报

Rank: 1

140#
发表于 2009-11-10 17:06:47 |只看该作者
谢谢分享了啊!

使用道具 举报

您需要登录后才可以回帖 登录 | 注册


Archiver|航空论坛 ( 渝ICP备10008336号 )

GMT+8, 2026-2-10 05:43 , Processed in 0.030002 second(s), 9 queries .

Powered by Discuz! X2

© 2001-2011 MinHang.CC.

回顶部