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131#
发表于 2008-12-25 20:26:30 |只看该作者
Weapon : y# f& c* Z: [Engagement `. {* e; [* g! b" b Zone* z* {2 w4 X/ f. R' w- |& ~ In air defense, airspace of defined dimensions within which the responsibility- A+ }8 a: {7 v6 R normally rests with a particular weapon system. , ]3 u" T. f+ t) JWeapons- h' M3 k- S. c8 J" [+ z Allocation7 C7 d# E% e/ l7 |9 w) C- q Designation of a certain weapon to attack a certain threat after Engagement) T4 L) k- n. e9 U Authorization is given.! m& X% f; S" O! e. [9 q4 ] Weapons, d% ^/ |8 c% L0 m g Assignment 4 \/ ?' c0 ?3 j, V' {In air defense, the process by which weapons are assigned to individual air , w1 k5 h) D: h& gweapons controllers for use in accomplishing an assigned mission. Assignment / o7 l4 w' t" d2 t; D3 t* Kof a particular interceptor to a particular target. 5 \% I6 y( L" v/ J% EWeapons # A5 p/ O, }) x! S0 c$ R+ FCommitment" h0 e/ g; ^# @. P' \ Authorization to allocate certain weapons to designated targets thus permitting2 N; o; y0 c4 ^- J% Y" M7 T checklist actions to be taken. # ?6 Y: L& k Z1 V: @Weapons Control The varying degree of formal control an area air defense commander exercises + A5 [, n4 v. v8 k6 \over all air defense weapons in his area of responsibility. 5 s! D5 c( o$ G' j+ S; v! Z) SWeapons+ a! W; C- Q w4 `: B; y0 p/ X Enablement( O! m8 m; W- S: a6 E. V Authorization to place a weapon into its most ready state but prior to release.7 V, U+ M: ]+ n; J& ^. k8 D9 R1 S Weapons Free A weapon control order imposing a status whereby weapons systems may be ( y" }6 t; k+ a( S2 lfired at any target not positively recognized as friendly.) y) U. }$ o" t. L/ T6 R MDA GLOSSARY, VER. 4.0 W4 s- |/ v& S7 m 321 % z# o- Y7 k# cWeapons Hold A weapon control order imposing a status whereby weapons systems may be& v( m, b' b; y1 }4 Y8 U0 c fired in self-defense or in response to a formal order. 3 z7 n }, [, p/ c0 x+ U& M% vWeapons$ Z* v4 |; Z: X4 S4 [# o8 ` Initiation 3 l( w+ x) D, y9 H) zState when a weapon system is to be placed in the highest state of readiness & U. `$ o' v, h" z& S8 |shy of weapon allocation. It is possible to go direct to weapons allocation or & g3 f. Z, ~) V( c9 }/ `; u7 g6 {release without first initiation or allocation. 2 Z: i; i+ ]$ t8 \: VWeapons of Mass( K- m2 Z3 c, x1 x0 k Destruction" Q" a# X* V2 _2 d* {' Q (WMD)$ `/ N1 k; i' _1 ] In arms control usage, weapons that are capable of a high order of destruction ; m' m& [) f( e9 }. b1 eand/or of being used in such a manner as to destroy large numbers of people.; U3 o! I! p( z+ S/ W% o Weapons 9 L, q; f2 }' U3 o5 ?# @2 y% GReadiness State ! ^. B9 L' n+ {The degree of readiness of air defense weapons which can become airborne or4 ~( P& Y/ Z2 u6 c0 z3 \* k be launched to carry out an assigned task. Weapons readiness states are7 I% f/ w; D0 a* i. y2 P expressed in number of weapons and number of minutes.( @4 o% s2 ]4 N+ n( r+ d Weapons3 v: z$ B5 p& g) K( }8 t Release: T. V6 [3 e1 y) w1 F Authority (WRA); g$ i7 S+ |* y# K S9 d* a6 C! q, c The order that gives weapon controllers the authority to fire. (USSPACECOM) z2 I$ W( C' @" A5 LWeapons System Items that can be used directly by the armed forces to carry out combat missions 7 q6 v" X$ M# y4 X3 f; Tand that cost more than $100,000 or for which the eventual total procurement' d2 }9 w; F% x7 m+ M4 E+ p# Q cost is more than $10,000,000. That term does not include commercial items1 h1 `/ [. N" H7 ]0 o m' U: g sold in substantial quantities to the general public.0 b D' C s+ U Weapon System0 v; E% E1 y( @2 w+ |) g0 ]: I5 I( N* x Control 2 i! T3 _) H9 s5 p4 Q7 g `That set of assessment, decision, and direction functions normally implemented; A5 Z4 ^) R4 ~1 Q0 V. i5 ]! \ automatically to assure that individual weapons are pointed, fired, and guided as ; t4 t+ Q. B# U( [+ }0 l/ ?necessary to intercept the designated attackers.7 W- ?. v7 \6 I, k! d Weapon Target, s& F) Q' \" b* Z; I Assignment 2 ]" ]5 E; R/ B4 K(WTA) 7 H! _- U, \, P7 F+ N* {/ xThe assignment of an interceptor to a particular threat object. In Midcourse, a: f( { t% F0 }& I% y WTA requires in-flight communication between the Battle Manager and an inflight interceptor. To ensure the Battle Manager maintains the ephemeris of the ! A& H4 `. E8 B3 t; L* K+ @( winterceptor, the WTA will constraint the interceptor’s flight error.' n8 N! t% Z+ K% T K Weapons Tight A weapon control order imposing a status whereby weapons systems may be $ P S: Z( b, z: Yfired only at targets recognized as hostile. - K' e5 ]2 U/ |% a# S$ Z7 O2 @, rWeapons System : t+ `: {; Q8 ?5 dEmployment : P: K. A% T( H* I: v8 JConcept% j% L3 f& P' t* @+ n A description in broad terms, based on established outline characteristics, of the 0 \1 }' C4 p/ L( Xapplication of a particular equipment or weapon system within the framework of( H' O! y& L/ O( r- O5 b: A+ s- P tactical concept and future doctrines.. |9 l6 O4 Q3 q# h; ^ Western Test 9 M! y D2 \! NRange (WTR); s. ^8 z( W, F/ Z, q$ C Beginning at Vandenberg AFB, CA, this range stretches halfway around the9 I+ W0 w6 x7 v( y- H2 C globe where it meets the Eastern Test Range. An array of launch complexes, $ J4 N' u3 q$ `; y! n- R8 C: A5 xsensors, and tracking sites makes up the Western Test Range. It is operated by8 T- }1 ~+ Z4 P6 S5 p the Space and Missile Test Organization (SAMTO), a unit of AFSPACECOM as ! H; D4 ^6 U7 ~1 J2 K, Wof 1 October 1990.7 m! w9 S A# j4 K0 a WESTPAC Western Pacific.0 W+ Z( U h7 e5 t% L4 v( K0 z3 x2 o& i WEU Western European Union 4 Q$ I, B. y4 ^6 g& c# [WEZ Weapon Engagement Zone.( ~/ o7 R4 l+ T WFF Wallops Flight Facility, Wallops Island, VA.. o e) j; O7 V2 h. ] WFOV Wide Field of View. - J8 T3 s- a. b! Y2 JWFX Warfighter Exercise.9 d0 n& I' L, c, W$ P! n7 x9 _ MDA GLOSSARY, VER. 4.0 W - m! N- ]7 \5 g5 c( m322* V9 W( C, \, f& X# q! m. @ WG Working Group.+ H- U D+ b4 w" }; Y3 z) G WGET Working Group on Encryption and Telecommunications. 6 f- ^: m! H+ Z5 BWH White House. 9 c% \8 c) X( F# _WHDEVAL Warhead Evaluation.

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132#
发表于 2008-12-25 20:26:42 |只看该作者
WILTEL Williams Telecommunications Group Incorporated. 5 R& T6 u) M6 }" @6 mWing Control- D$ e, K0 {/ L8 f Center (WCC) , r4 P; f5 I2 e% S b% n6 YA second Space Wing center that logistically/administratively controls operational $ d6 W) y- d, v3 z+ I9 ?satellite systems operated by them at worldwide locations. 9 [. i, L" l: V- Q0 F+ UWIPT Working-level Integrated Product (Process) Team.; K% f4 E$ H2 m5 T$ G9 x WIS WWMCCS Information System.' [4 m) [3 F* _) Z Withhold 1. A term used in a pre-planned response option (PRO) to identify the 1 [/ t$ E2 q2 q+ xwithholding of part of the space or ground weapon inventory against detected ' N. o1 W) Y5 Y3 c2 s I3 Ythreat launches, in anticipation of follow-on attacks. 2. (Nuclear) The limiting of ; v6 A1 R D/ w: B- ]9 `: X3 wauthority to employ nuclear weapons by denying their use within specified) y" r3 K# R: f8 Z; [3 I3 A. e Q geographical areas of certain countries.2 H' b; ]( g. V% q WL Wright Laboratory, Wright-Patterson AFB, OH. 5 a$ B, C7 z8 v! ?' |8 GWLR Weapons Launch Report. g! W: ]& s( ?" l/ S- k5 H WMD Weapons of Mass Destruction.: I! w7 y& |4 _ WMF Windows Metafile.- N% g. r w# S( H2 e* \ WMP War and Mobilization Plan.8 I8 ~* q7 x* Z WNINTEL Warning Notice - Intelligence Sources or Methods Involved. " a1 w! X/ g3 D, fWOC Wing Operations Center.! [, J" p5 @& I% e7 e7 \) m+ i! W WON Work Order Number. 8 j, E8 U$ W) l ?7 M( @" oWork Breakdown 4 b4 d% B& o7 K# C0 x8 j6 SStructure (WBS)# o( C1 w- s' S" P, [ (1) A product-oriented family tree division of hardware, software, services,0 S6 [" x$ C/ J- N5 t( N! o and other work tasks which organizes, defines, and graphically displays$ M. F `8 _+ d( ^3 b/ }+ Y# i( B _ the product to be produced, as well as the work to be accomplished to + Y, q) g: u3 z$ Fachieve the specified product.1 _+ k G1 s2 x0 l9 C/ ` (2) A hierarchical diagram used to depict the tasks, capital, and resources" ]" g" B' u! }9 K( d required during the development of a product. ' z2 O: K6 u4 {( O0 XWork Packages Detailed short-span jobs, or material items, identified by the contractor for, I6 d9 O1 _' c. m1 m accomplishing work required to complete the contract. # \2 K0 i1 `6 mWorldwide8 L' X+ I1 g3 B Indications : y5 D6 a9 L& g pMonitoring, g8 k4 ?( _" j* Y7 G F4 S System (WWIMS) ( a/ d' E' s- I# Q/ ]- G: tA confederation of national, unified, and specified command and other , I* I3 d8 k. Z1 ]6 ` l6 ~! \/ ~, v! Sintelligence centers and facilities. The primary mission of the WWIMS system is ( Y$ [. B- Q- c. D, f* U4 B/ rto monitor, maintain, and report on Indications and Warning (I&W) activity.4 I* P( G; G, O+ |/ ~ MDA GLOSSARY, VER. 4.0 W 6 G% T4 n& g) i. ^, K# X3231 a/ b' |% z; s( n+ Q+ Y7 F) S World-Wide : Z% i& H7 I. U# Y2 G5 bMilitary! I1 o; h! y. m4 v6 w* s; Y Command and" B. ^ j& v$ o$ O Control System! |5 W: x9 N6 W3 K (WWMCCS). M% H2 k( Q/ w2 b4 p9 F The system that provides the means for operational direction and technical + R F! W. l! V/ `0 @* o/ a" uadministrative support involved in the function of command and control of U.S. $ F) i- q ^/ _- I- F0 v$ b* lmilitary forces. The system comprises: The NMCS - The command and control + n1 u) T/ o$ ^% v& D) y, u$ msystems of the unified and specified commands - The WWMCCS-related " d3 M- S6 z0 g1 X+ u# q$ bmanagement/information systems of the headquarters of the Military 5 Q/ Z" I& n( iDepartments - The command and control systems of the headquarters of the . t5 b' Q* B W3 x3 b+ ~/ _5 Jservice component commands - The command and control support systems of 9 g! y1 c: i$ z& u9 Q5 _2 _' y" h' GDoD agencies. The system furnishes a multi-path channel of secure , n, g' H t, p. {( M2 @4 u1 hcommunications to transmit information from primary sources to those who must* W; e8 j. |, V9 g! | make decisions (including the President) and to transmit their decisions (in the7 K3 m2 _$ ?9 c7 X) @8 O form of military orders) to subordinates. 6 F' I6 ^' u4 L4 c6 dWP (Former) Warsaw Pact Countries.+ |( P5 G+ D G! g5 P WPAFB Wright-Patterson AFB, Dayton OH. $ l6 t* Z( i" \# K& Z, [: K: @WPC Warsaw Pact Countries. : b5 ?' \0 m0 V1 I1 u( ~WPD Work Package Directive., `4 X+ c, I9 z WPN Weapon Procurement Navy./ c" X/ }6 \" P WR Western Range. % H2 w, w2 G+ c) E5 i% ]/ |WR/VAFB Western Range/Vandenburg Air Force Base. : x+ G* J: q! j+ t- A _* e FWRA See Weapons Release Authority.! W/ b* m6 \3 X6 A: z WRM War Reserve Materiel. " F6 i6 @- e# g; ?- B2 u) d& N. gWRSK War Reserve Spares Kit., ^' C+ `% l4 _# \ WRTTM Warhead Replacement Tactical Telemetry Module (USAF term). 3 g ]! w+ \% h! L+ B7 Q, @* [WS Warning System., z& d/ l- Z2 b% Q0 o3 e- A$ ? WSE Weapon Support Equipment. 9 V- r- }# Q' q4 uWSEM Weapons System Evaluation Program. " x/ O$ _3 y; y1 d) U% Q' y) q6 mWSESRB Weapons System Explosive Safety Review Board. 8 {. |8 J' Q. h/ N+ S4 JWSI Wafer-Scale Integration. 9 d5 o, ^% L: }6 ^) RWSM Waterspace Management (USN term).* e+ [$ q. J! {8 t WSMC Western Space and Missile Center, Vandenberg AFB, CA.# B! I' f- r9 b# k! H0 \" p WSMR (1) White Sands Missile Range, NM (2) Western Space and Missile Range.9 C' y. X: S B! m& i1 I WTA Weapon Target Assignment.) q8 X& [ z% `/ c6 W* {% N WTO Warsaw Treaty Organization.) k! A) R8 L5 C; h3 R+ O WTP Weapon Test Plan.& f/ W% S- i) @9 I" k WTR Western Test Range.0 D4 j. X2 e& i+ I" j" n& L/ d' ^ MDA GLOSSARY, VER. 4.0 W 7 d( G$ `- j/ n$ t V324 . \8 |5 M/ q. I3 l& ]WUC Work Unit Code (ILS term).$ ~+ w, @# z: A* c- c4 f; y9 q WWABNCP Worldwide Airborne Command Post.

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133#
发表于 2008-12-25 20:26:53 |只看该作者
WWG Wideband Waveform Generator.: K0 u8 a, ^& |0 Z& l' c7 v% ^) D1 [ WWIMS See Worldwide Indications Monitoring System. , }7 R, U% F2 QWWMCCS See World-Wide Military Command and Control System.( m3 \' g' ?5 v# \# H WWW World Wide Web. 2 I9 w; _8 S& f# rWX Weather.2 v% v; ?" {" a2 @6 z& `* |' z MDA GLOSSARY, VER. 4.0 X,Y,Z 8 u5 _$ M6 K3 k X5 \325 * {& J7 r1 x' x% | X& K/ ]X-ON/X-OFF Transmitter On/Transmitter Off (Telecomm/Computer term).5 {8 I, a9 v+ f7 j% e6 i' h X-Ray Laser % `$ w) Z2 Y+ E6 w& ?(XRL)9 z2 I) A1 ^. f+ F9 r" E) y7 } A laser that generates a beam or beams of x-rays. Also called an "X-raser."4 V% P" [/ y3 r, u8 A5 T X-Rays Electromagnetic radiation of high energy, which results from either the release of # b0 a/ `9 E4 ~* g/ S" menergy from electrons changing orbits about the nucleus (discrete) or the inelastic collision of charged particles with the electromagnetic field of the nucleus.. a) ]$ G2 _% t$ t X-rays have wavelengths shorter than those in the ultraviolet region, e.g., less " ]1 Q* l7 D) h5 ^" D5 S. n7 Bthan 10E-6 cm or 100 Angstroms. Materials at very high temperatures (millions 7 S2 H, i. e$ a* s6 ]" G6 J/ ]of degrees) emit such radiations; they are then called thermal x-rays. As) q9 y: D: C8 x' M$ p7 E& O) ] generally produced by x-ray machines, they are "bremsstrahlung" resulting from% u7 w* t% ~4 n( P* b% Q the interaction of electron of 1 kilo electron-volt or more energy with a metallic, \7 g! B1 X/ e: M) ~5 J- z; A target. (See Electromagnetic Radiation and Thermal X-Rays.)7 c2 w* }: M: t3 V XBR X-Band Radar. , Y4 V5 G& h e9 z( vXCVR Transceiver.' u, `, v5 w% I- T# r) Y9 ~ XDS Exoatmospheric Defense System. 7 C5 _ t4 X, T* {XGA Extended Graphics Array. / k' p0 U5 q& }4 o% GXIWT Cross Industry Working Team.! ?: o$ c0 o5 V4 N3 u9 l/ k XMTR/CVR Transmitter/Receiver. 1 f! \$ [, ]. ]2 \XO Executive Officer. ! p' l+ t5 g! L; H# J/ zXoDis Exoatmospheric Discrimination. ' V Y" P z5 h- l! oXOX Assistant Deputy Chief of Staff for Operations (Office Code). , ^, f$ x: S1 B* B8 r# J- o Z- xXRL See X-Ray Laser. / J8 l7 \! ]9 P- c8 K4 S7 mXRS USAF/ESC Staff Symbol.$ E- s/ I+ Q* u) s; c XTB Exoatmospheric Test Bed.* ^6 l1 ~8 X' W7 ^' r6 g' l XTV Experimental Test Vehicle." t/ S7 T( s0 J' H: v- _ Xwindows Unix graphics interface.2 M) O- b" e( k Yield (or Energy ; S u' l9 W; h0 H' }+ LYield) # a& T# t8 Q- \/ L# j3 IThe total effective energy released in a nuclear (or atomic) explosion. It is7 o" Y# f0 W$ W% m/ T4 Q$ R% ?- R1 w usually expressed in terms of the equivalent tonnage of TNT required to produce1 t; L; Y' _# |) h+ n9 z9 ^ the same energy release in an explosion. The total energy yield is manifested* ` ?( M9 u2 E+ h+ Q as nuclear radiation, thermal radiation, and shock (and blast) energy, the actual0 {, |$ [$ i& d; s& w: n distribution being primarily dependent upon the medium in which the explosion / g9 z3 O$ W' _- ~occurs, as well as the type of weapon and the time after detonation. + }; L0 m& Y$ X3 ?Zero Point The location of the center of a burst of a nuclear weapon at the instant of ( L3 Z+ _/ |! bdetonation. The zero point may be in the air or on or beneath the surface of . G/ W f0 ^3 d9 ~8 v% E: g( Cland or water, dependent upon the type of burst; it is thus to be distinguished- n l5 B4 z5 V. z) P( V% C" d from ground zero. N# x! u5 y1 L0 _' h0 R" l1 B0 SZIF Zero Insertion Force. 9 l% D. @$ N$ h& tZULU Time Zone Indicator for Universal Time.' p Q" r, X, ? MDA GLOSSARY, VER. 4.0 $ G @+ }$ \8 o4 w. Z) M4 ^3260 T6 G' ^/ }) Q9 b2 c" c Units of Measurement3 V o# l7 y% w1 V Keyword/Symbol Unit Name Aspect Measured; Q( @. Q( M2 s1 P [ a ] ampere electric current * P2 n% s& J& y% B. g# Q3 J[ angstrom ] angstrom length$ K, c% c0 y8 K4 Y: r: @1 r% B% Q [ b ] bit binary digit 0 or 1+ x/ \- j, M8 r9 q& J5 [ [ bps ] bit per second bit transfer rate 9 W6 S6 J/ M4 z; D+ f* f[ C ] coulomb electric charge % [+ ?" l* b0 S; Y4 T- P[ c; Ci ] curie radioactivity 5 ?' }/ C" R& A4 m; k# ]6 i[ cal ] calorie energy + M, [+ v0 j! m% }: s4 ^2 d[ cal/sq cm ] calorie per square energy per area ( z' d- a$ U7 H3 d4 N/ l5 u* Jcentimeter ) p2 P" @( _: G5 J( E" O[ chan ] channel frequency path - ^6 K {+ Z3 k+ f1 l0 z) H1 w[ cm ] centimeter length

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134#
发表于 2008-12-25 20:27:02 |只看该作者
[ cu cm ] cubic centimeter volume1 D: m# o* C: T [ dB ] decibel signal strength 5 u) N) U8 V" n6 `' W, @[ deg ] degree plane angle( \" {9 P$ T e) j9 g [ deg K ] degree, Kelvin temperature8 u% T% f: C& Q9 w. R [ deg/s ] degree per second plane angle change rate( x+ h$ s# [1 j! Z& Z4 s( l" t I [ deg/s/s ] degree per second slew acceleration/ a0 q0 R* `9 B* E) @8 |* X per second ( n5 z- B9 ~& w5 N- _; s[ diam ] diameter length7 k6 o7 x$ {1 x& W' V" g [ dyn ] dyne force 5 W7 s# |& F9 L! C[ eV ] electron-volt energy ^6 h9 h" Y, ^[ G ] gauss magnetic flux density: K% V2 t, j; k* C [ g ] 1) 9.808 meters per sec- 1) gravitational acceleraond per second; 2) gram tion constant; 2) mass ' g1 q8 {4 o" R! A[ GHz ] gigahertz frequency% D$ l4 R( s) i [ Gy ] gray absorbed dose5 X) q5 z9 U" ` c! h; Z- H) ^" v: C [ h ] hour time 7 O1 A1 Q D0 `; T! [% f" _[ Hz ] hertz frequency # M" a3 a$ Q, `5 m[ J ] joule energy8 {' E- r4 x- a f& \, t [ J-T ] Joule -Thomson temperature change & w# h) O* q7 d6 M. ][ K ] Kelvin temperature# N& |2 R7 K! B( D$ m* l- L1 } [ kA ] kiloampere electric current9 [& S- @ R" \1 R$ g J9 N [ kb ] kilobit binary digit: m- |- J g( ?" D5 t6 u+ \5 P. | [ kb/s ] kilobit per second velocity (binary digit)$ f5 V8 O2 @9 t [ KeV ] kiloelectron-volt energy1 C& ], V. w: r. c& e( B- T [ kg/sq m ] kilogram per square pressure7 X* _9 t1 P$ y* c' e% e' D4 w' E meter 1 B( ?6 L- @' T; m: f1 o X, ~! e[ KHz ] kilohertz frequency i% Q8 J9 d. V0 x [ kJ ] kilojoule energy , P( J+ @( `% U[ kJ/kg ] kilojoule per kilo- specific energy / `2 Q; k/ M" Igram & o" E, m9 @' S6 }. f[ kJ/sq cm ] kilojoule per square laser lethality " ]$ o5 z" l3 Q8 S6 _7 ncentimeter3 t) r$ Q: j! s) d. c# D4 f9 G- l [ km ] kilometer length! W! e' N% e1 j5 T1 l, V; G [ km/s ] kilometer per second velocity" i3 u i1 _$ g- o2 |% Z [ KT ] kiloton yield / Y+ q" s. _. _$ N[ kV ] kilovolt electromotive force, C# H- o/ M( B. H4 R; i7 ~ [ kW ] kilowatt power2 m% _' a: J; I7 m, n [ kW/kg ] kilowatt per kilogram specific power 5 j1 o! s1 e& D, _, S; qKeyword/Symbol Unit Name Aspect Measured1 q2 T8 O3 n: ^ MDA GLOSSARY, VER. 4.0' q; y: X/ K& Z4 I# x; T$ E 327+ M' ]$ R9 d+ Z8 n% i3 c& H, F [ kW/m ] kilowatt per meter thermal transport* `1 J. |' F" _4 Q7 G [ kW/sq cm ] kilowatt per square energy flux - O8 r. [: {6 ?0 w6 J9 r; }centimeter5 m7 `1 \, o0 }) m7 | s1 i [ m ] meter length: n0 Q' H5 g8 I, P [ Mbps ] megabit per second bit transfer rate; o5 P i7 Z* u* X. R1 |8 E' u8 N$ K [ MeV ] megaelectron-volt energy8 G% f# q X5 o2 M# M" } [ MFLOPS ] million floating point processing performance $ L; X; y$ _3 {, U; i0 ooperations per second $ R& u4 y b; d w2 @" K3 {[ MHz ] megahertz frequency, x H* \4 c8 d. \( i$ ~& ] [ micro ] micro a one-millionth part% G4 J9 s/ _( P$ v0 D8 H [ micron ] micrometer length , [) Z. N, A6 g6 _2 G[ milli ] milli a one-thousandth part 0 S" m8 [2 ~* `- _mJ millijoule' x+ ` B2 N$ e' R [ min ] minute time & B }. c& U& d6 c[ mips ] million instructions processing speed* @$ J/ P3 q. v4 ? per second 8 _! V8 O- f A- ~, f[ MJ ] megajoule energy3 ]# ?" W) N6 g- l3 b6 Z. F. x [ mm ] millimeter length ) `2 k+ _# _' Q$ I3 j0 A[ mops ] million operations processing performance+ H8 S5 V; J, T6 i/ [3 C/ j per second! ~0 R, b8 R7 @0 v [ mrad ] milliradian plane angle& w( s' N: z4 z4 f [ m/s ] meter per second velocity# C) ? u- s8 G1 ` [ ms ] millisecond time7 _, I6 n) y7 |0 { [ MT ] megaton yield- U+ `7 p5 t( b' _1 R+ Q% @ [ MV/m ] megavolt per meter electric field strength8 _% X9 e$ G4 f& k, ~ [ MW ] megawatt power 3 O0 b3 l8 N* Z( w[ MW/sr ] megawatt per steradian laser brightness f! b( n; a* X+ A$ A& L [ N-s ] newton-second force/ p! Y9 b- l. W- |$ n [ ns ] nanosecond frequency) |% M- F- c Q- i& b [ parsec ] parsec astronomical distance 0 \& D" k7 { } d% A[ Pa-s ] pascal-second pressure h% L5 u, x% x [ R ] roentgen radiation dose , Q, ~8 J* h. K* K. q[ RAD ] rad absorbed dose : U; a/ j, U1 h; L[ radian ] radian plane angle 9 }/ \) j) B1 @: [7 Q[ rad/s ] radian per second angular drift 6 U7 T; r# _) J8 e0 T$ |+ J[ ratio ] percentage efficiency " m- Y5 H) a8 a& J9 k2 o) `! A7 x[ rem ] rem ionizing radiation - f b( o( F( `. V[ s ] second time2 A# r3 U/ o3 x2 ~ [ sq m ] square meter area6 o# [$ i; P1 d- Y! i, Q) z% C [ sq m/yr ] square meter per year area per time 4 B/ E0 {3 R, x, J[ sr ] steradian absorbed radiation dose |2 Y$ U' x( s3 O [ mrad ] microradian plane angle: `9 @* q. O! u0 Z [ V ] volt electromotive force ! Z! t4 F. ]$ b9 j[ W ] watt power: ^5 t( Z% |( b. ] [ W/kg ] watt per kilogram specific power $ i( }; a# R; `+ \% B[ W/sq cm ] watt per square heat flux( ^ z2 P/ f0 @/ S- Z0 {3 d centimeter ; A/ d8 ?9 v7 }$ y: w c[ W/sq m ] watt per square meter energy flux3 [( f# R1 l3 J. q& k8 r* a [ W/sr ] watt per steradian radiant intensity * r: Q; U7 D5 i- f; g[ W/sr sq m ] watt per steradian radiance% T" ]% w" k+ q- e square meter ' ~/ |) U ]0 a/ j8 K3 }[ yr ] year time

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

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

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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?

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

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

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

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