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131#
发表于 2008-12-25 20:26:30 |只看该作者
Weapon 6 j7 G) o' T) A; t6 V% sEngagement1 e: H% v# G/ B% L; K$ F0 G) H$ a Zone , N$ r C- h _3 K4 pIn air defense, airspace of defined dimensions within which the responsibility / c% T8 e' L0 e# J8 A- F4 vnormally rests with a particular weapon system.) A2 Y+ S" I, q+ P3 H6 B- P2 I Weapons 1 z' N8 k5 E6 z3 c4 [0 u, n2 b: i, ~* _Allocation Z' G3 n8 N' x+ l8 w6 x0 u6 iDesignation of a certain weapon to attack a certain threat after Engagement7 k, ?& ]& v4 L. `/ O5 G: H; X Authorization is given.( [" a6 {" B5 b# q. ~ a& ~: U Weapons' h& S* |3 j) {8 x: z7 B: _" ~' l Assignment 7 Z1 L$ M% P: F& \: L) UIn air defense, the process by which weapons are assigned to individual air+ r, b/ I2 b5 \+ C m9 G8 ^$ r weapons controllers for use in accomplishing an assigned mission. Assignment6 Z5 g% _" V2 f- ?( t$ g9 w of a particular interceptor to a particular target. % z: S9 ]1 e9 v6 z" PWeapons5 h6 w$ r; K! v; X Commitment ) `0 b$ y# p2 v, f# E9 jAuthorization to allocate certain weapons to designated targets thus permitting ) A. _& t+ |6 }' ^6 r* |checklist actions to be taken.- {0 N. k( U. f" @ Weapons Control The varying degree of formal control an area air defense commander exercises J) A/ @& o- H over all air defense weapons in his area of responsibility. . \' C! g0 A2 k/ }7 `3 Z, c2 pWeapons) |6 r" g* M4 U2 ?7 y1 `- x1 h Enablement h3 V3 U# \, I1 J9 ^/ `0 k2 }4 y+ c Authorization to place a weapon into its most ready state but prior to release. 7 f& _* U+ X! o9 {2 e- I iWeapons Free A weapon control order imposing a status whereby weapons systems may be, p- c1 O2 ^: }* B$ n fired at any target not positively recognized as friendly.) n7 L4 q: J, i8 S# E# P MDA GLOSSARY, VER. 4.0 W6 q# B1 Y& c0 B9 V9 J$ V v 321; K% e! G6 y) W* o4 [ Weapons Hold A weapon control order imposing a status whereby weapons systems may be8 g8 U6 Y5 b3 [7 z$ i) W: B fired in self-defense or in response to a formal order. P8 P% I1 d. n6 H, M5 D% G Weapons+ s @) o8 N Q: r) Y Initiation* J: c9 l1 ^2 m0 A4 l% Y State when a weapon system is to be placed in the highest state of readiness# E8 t1 b' U0 q9 Z- L shy of weapon allocation. It is possible to go direct to weapons allocation or' Q" o5 H9 w; W. v# S! S3 i/ ~/ O6 ? release without first initiation or allocation. 9 E% |1 T! R0 nWeapons of Mass ) ?/ _* Q8 Z% o7 q! \( D, aDestruction ! O8 P# p5 s% |( l% K/ @ M" P(WMD) & |6 `9 e& f( V# q4 RIn arms control usage, weapons that are capable of a high order of destruction% S i# v! D9 r; T and/or of being used in such a manner as to destroy large numbers of people.8 Q- N9 X6 \5 Z5 ^6 C$ Y& U$ C Weapons4 J/ U# u2 i. Q/ f5 _0 Y' w; w Readiness State 8 ~* L! n' _/ ?# q* k5 y; kThe degree of readiness of air defense weapons which can become airborne or% M( @; R0 a6 g( Z5 C be launched to carry out an assigned task. Weapons readiness states are8 M- O4 k1 v# E5 z( e expressed in number of weapons and number of minutes. `! e) q, c5 e2 Y" X& m Weapons - o9 R/ \3 B% o0 H mRelease 9 v& Z+ w3 y- j3 S" X3 a! W8 oAuthority (WRA)* P y' G! q9 P The order that gives weapon controllers the authority to fire. (USSPACECOM) $ z1 O0 m. l! o/ \1 d6 WWeapons System Items that can be used directly by the armed forces to carry out combat missions # [/ a0 B+ V2 S7 w. o- M/ tand that cost more than $100,000 or for which the eventual total procurement) z. x% Y+ U( q4 y* d8 H! y cost is more than $10,000,000. That term does not include commercial items' J. N# e2 J6 a* T% h, U+ G a sold in substantial quantities to the general public.6 g) v1 \5 O' s* r/ L/ _+ q Weapon System" p. P" i/ Y9 L/ e- X! |0 Y. P7 _ Control ) o1 l" v5 G% n9 ?# e- vThat set of assessment, decision, and direction functions normally implemented $ f2 G2 K( g* I1 V7 w* u! r1 Aautomatically to assure that individual weapons are pointed, fired, and guided as) f% P8 Y9 h% N$ Q+ ^. a necessary to intercept the designated attackers.# x! \" f# K3 I, }# b' g( d Weapon Target p$ R( x; T# J# i7 |) _( z: r Assignment7 V& [4 R; l! w }; A4 a" \3 i (WTA) , I) X8 H3 K* p! w- l* AThe assignment of an interceptor to a particular threat object. In Midcourse, a ' b! I& V$ \/ W" @2 rWTA requires in-flight communication between the Battle Manager and an inflight interceptor. To ensure the Battle Manager maintains the ephemeris of the* v9 N! N& i* B6 m; s: t interceptor, the WTA will constraint the interceptor’s flight error. _- z5 ^3 _$ ?6 \+ `0 n3 @ Weapons Tight A weapon control order imposing a status whereby weapons systems may be) X; u' m% L M6 I5 A$ |, x5 h- P2 L fired only at targets recognized as hostile. . |1 z; U3 W( W b- F5 uWeapons System # |- N5 F6 m: ^8 N: O( D5 s; E, NEmployment $ ^2 Q# H+ u5 S/ T CConcept 3 Z( n7 {6 U+ ~( TA description in broad terms, based on established outline characteristics, of the3 F8 p% L h0 y6 F7 W4 N application of a particular equipment or weapon system within the framework of7 ~, T: T' D, c5 M" W8 l% m tactical concept and future doctrines.2 h/ B: w) B7 a( |" f6 `1 | _% M Western Test5 N0 r9 K( @2 [ ~6 H2 c) Q Range (WTR); F, B& N! X/ g Beginning at Vandenberg AFB, CA, this range stretches halfway around the. w* ?1 H# W5 v5 r, Y globe where it meets the Eastern Test Range. An array of launch complexes, 0 E/ G6 m1 k9 w0 W6 rsensors, and tracking sites makes up the Western Test Range. It is operated by ; N; t" O) j$ e3 c( q. P; k; }) j# e" Bthe Space and Missile Test Organization (SAMTO), a unit of AFSPACECOM as 8 t5 W" ]% E3 K& ~8 y( ?9 xof 1 October 1990. - D+ j w. ^7 sWESTPAC Western Pacific. 3 G# ?1 N1 j* l2 Y* J+ IWEU Western European Union, Q" Z3 ~& ^$ U WEZ Weapon Engagement Zone. & p4 T5 n% m, B6 oWFF Wallops Flight Facility, Wallops Island, VA. - J6 i d6 k4 d$ C5 j8 dWFOV Wide Field of View.0 X+ |' @+ n5 u WFX Warfighter Exercise./ ~# L* G3 D, |. o3 w MDA GLOSSARY, VER. 4.0 W4 y$ ^% L/ |% r" s5 Q/ W: t0 F 322 * p: E$ w# m5 PWG Working Group. ) _$ s0 T+ C7 k1 i. K2 o; DWGET Working Group on Encryption and Telecommunications." F; I' J5 `+ b6 m7 b WH White House. # P; t5 X: \9 i& _9 {0 {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. # R7 E5 ]5 M$ z7 w( @Wing Control/ Y W4 T6 o' ^ Center (WCC) 2 x2 v: j# }' J4 o* a, d! j: LA second Space Wing center that logistically/administratively controls operational ; R5 ?; H9 t: ?$ ^& g6 }" H Msatellite systems operated by them at worldwide locations.4 h7 j7 E* t5 J/ c g WIPT Working-level Integrated Product (Process) Team. 2 s0 }/ z) w4 W. L9 O) c- wWIS WWMCCS Information System. & {9 F$ e1 m* x( g* k' X* {Withhold 1. A term used in a pre-planned response option (PRO) to identify the! V# D9 q: B8 F4 V8 Q* c) `% L withholding of part of the space or ground weapon inventory against detected ( J3 e: i3 i$ j" a) {4 Zthreat launches, in anticipation of follow-on attacks. 2. (Nuclear) The limiting of0 W- R& R H# f. E( Y- h) { authority to employ nuclear weapons by denying their use within specified) g2 R2 @; P2 T. a geographical areas of certain countries. : @1 U' t( d- O" @! WWL Wright Laboratory, Wright-Patterson AFB, OH. 0 n$ K" z& z7 JWLR Weapons Launch Report., \7 J1 K' l( F( m WMD Weapons of Mass Destruction.; N t( Q$ N/ s! ]& Q) p WMF Windows Metafile. 2 B; G! C; ~. ^9 m* GWMP War and Mobilization Plan./ y/ V6 w7 U2 ~- R' b WNINTEL Warning Notice - Intelligence Sources or Methods Involved.4 l) X- S$ R( j m$ Z4 Z! K Y% m1 _ WOC Wing Operations Center. - f7 k' n; F5 _0 C2 P# @WON Work Order Number. 9 @4 ~$ l- ~0 A5 ?% q' I2 OWork Breakdown M' h/ u+ ^2 C/ [' IStructure (WBS)4 W, Z V4 A3 E& T+ h: l (1) A product-oriented family tree division of hardware, software, services, ( |4 K# q: Q0 ~. y+ qand other work tasks which organizes, defines, and graphically displays 0 c0 T5 @- v- ]9 H6 gthe product to be produced, as well as the work to be accomplished to + `; ]5 `3 G$ g' x# |/ Zachieve the specified product.1 y$ j) B3 x8 _0 b; e' s (2) A hierarchical diagram used to depict the tasks, capital, and resources 7 S' `- v8 [) }$ t) L) h/ M( yrequired during the development of a product. 0 q: g4 \/ A. d7 _Work Packages Detailed short-span jobs, or material items, identified by the contractor for 9 t, ~$ f3 }5 s1 @ r+ Faccomplishing work required to complete the contract.. k- s5 r4 {9 O$ o8 O0 ^ Worldwide5 e1 Q S0 F% L* M9 ?1 J Indications ) ^( G) D' z' o7 E/ k. JMonitoring* a% S7 g& F/ x$ D) f: w( v System (WWIMS)* J4 y6 d; \9 p \* o6 D" _% j A confederation of national, unified, and specified command and other 2 L: Q) Y) y& t' B- s. x4 ?0 a$ S- Bintelligence centers and facilities. The primary mission of the WWIMS system is 4 S, f5 ?1 i6 W% Xto monitor, maintain, and report on Indications and Warning (I&W) activity., r+ {; ^2 O1 n9 [ MDA GLOSSARY, VER. 4.0 W # Q+ e2 Y" Q- }+ f( b323 8 r$ @7 u6 g w w: l% \' gWorld-Wide$ v) \0 Y1 M, @0 d4 M- c Military & V. k( N/ t: z6 J% C( j3 QCommand and / F- P: x# c0 ]! xControl System / ~9 Z4 B5 p; o- h(WWMCCS) . |4 r8 W% M- r: G4 FThe system that provides the means for operational direction and technical! g7 s) F2 H& N# l$ R: @ administrative support involved in the function of command and control of U.S. ) E4 p$ Z1 @, E8 |: p2 gmilitary forces. The system comprises: The NMCS - The command and control+ m! D! G- B7 B: `4 i0 \+ B6 J systems of the unified and specified commands - The WWMCCS-related / A, z9 A; ^( c9 E# Q1 Emanagement/information systems of the headquarters of the Military + Y% Y$ k( J3 m3 \+ eDepartments - The command and control systems of the headquarters of the 5 ~7 ^0 r5 g! G1 vservice component commands - The command and control support systems of % f0 Q) D) E6 z. P4 D4 j7 }DoD agencies. The system furnishes a multi-path channel of secure : r" t1 q8 T' a1 U8 M1 S$ ~communications to transmit information from primary sources to those who must K# d/ ~2 B7 `4 o$ w. pmake decisions (including the President) and to transmit their decisions (in the7 j: S J1 {6 t9 D5 I; P: Z form of military orders) to subordinates.5 L/ y( Q9 L3 N( T WP (Former) Warsaw Pact Countries. ~9 z* r; i' p' N WPAFB Wright-Patterson AFB, Dayton OH.6 z: ?" N) Q7 W# C WPC Warsaw Pact Countries. * z! h M2 S- ?6 W$ o/ y; xWPD Work Package Directive.' i5 k( g$ j* } WPN Weapon Procurement Navy.$ C7 q, L [( r6 O WR Western Range. 8 V( z8 {) z6 {+ `8 N6 {WR/VAFB Western Range/Vandenburg Air Force Base. ' L, X0 x. X C- k* Q0 h3 `5 vWRA See Weapons Release Authority. ( \8 I& r( o- ?) K4 e8 L+ [WRM War Reserve Materiel. $ s" Z0 X- H2 g- U; n* NWRSK War Reserve Spares Kit.* m/ q5 d0 h7 O WRTTM Warhead Replacement Tactical Telemetry Module (USAF term). # H( O$ ?$ t: z2 Z- Y# AWS Warning System. 7 s5 U0 z4 A/ J$ j' D6 oWSE Weapon Support Equipment. . S9 U2 _! v$ j4 J1 n G8 zWSEM Weapons System Evaluation Program.% f/ q- u' t. o; `( ~+ ] WSESRB Weapons System Explosive Safety Review Board. $ K `4 H, t3 ^5 sWSI Wafer-Scale Integration.' L8 w* C+ n; B4 i4 ] ~/ G$ w4 i WSM Waterspace Management (USN term).3 c+ E" L: K. D+ ~( T WSMC Western Space and Missile Center, Vandenberg AFB, CA. & Q0 j/ }! q. M- ^% N' `5 MWSMR (1) White Sands Missile Range, NM (2) Western Space and Missile Range.+ N3 m* T; t8 Y) H" ^ WTA Weapon Target Assignment.5 m/ v% m$ o$ n# E R) g WTO Warsaw Treaty Organization.. @. |) k8 q. m WTP Weapon Test Plan.8 P, c( n5 o5 _$ V WTR Western Test Range. ) V+ G- v0 s8 P# w- j/ mMDA GLOSSARY, VER. 4.0 W# v2 o/ d) Q7 z' U/ e# J- E" U 324+ T; l7 Y/ `( z, E; w* |& R WUC Work Unit Code (ILS term). + G5 ^; j( Z1 T, [: e! x& j2 AWWABNCP 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. C/ {- c. h* D5 e. q) o1 j4 U WWIMS See Worldwide Indications Monitoring System., ]' e: T7 j: G9 [ WWMCCS See World-Wide Military Command and Control System. K! ^. A( A! L3 W: Z& l WWW World Wide Web. % r/ W0 Q c. O- r) n* M, EWX Weather.& q0 Y2 `" H" X2 _9 w. L" ]) E+ A% g8 M MDA GLOSSARY, VER. 4.0 X,Y,Z( g+ b+ T# @0 H+ B 325; {: I& P; b! a1 G: n6 ? X-ON/X-OFF Transmitter On/Transmitter Off (Telecomm/Computer term)./ G8 N8 ?9 x3 N- H; K7 Y& ^ X-Ray Laser8 k. N; H& r' Q5 i/ Z (XRL) * j5 z% x/ c& N3 w: T& Q# Q, n. TA laser that generates a beam or beams of x-rays. Also called an "X-raser."7 H- n& c0 S0 [( b: X X-Rays Electromagnetic radiation of high energy, which results from either the release of% E ]# X9 c8 n2 G |+ t energy from electrons changing orbits about the nucleus (discrete) or the inelastic collision of charged particles with the electromagnetic field of the nucleus." A3 g; r, U2 s% j7 Z1 r X-rays have wavelengths shorter than those in the ultraviolet region, e.g., less2 t) {5 Y9 D0 b" o7 L* a+ P than 10E-6 cm or 100 Angstroms. Materials at very high temperatures (millions( y' D# K5 z, [' |3 H of degrees) emit such radiations; they are then called thermal x-rays. As ) P- Y! m6 m/ Cgenerally produced by x-ray machines, they are "bremsstrahlung" resulting from 4 G( }+ T% X+ m" V4 \; _2 ?: r6 Cthe interaction of electron of 1 kilo electron-volt or more energy with a metallic , t! c. \# m/ l4 l) [8 Starget. (See Electromagnetic Radiation and Thermal X-Rays.)8 C1 t% u2 `/ Q; g XBR X-Band Radar. % g( e( f) m, o3 U0 u% r4 pXCVR Transceiver.4 D8 _, R4 W" \( R# w0 F4 { XDS Exoatmospheric Defense System. 9 i4 m" [- w1 zXGA Extended Graphics Array.! A/ v9 w r4 f m1 e! l XIWT Cross Industry Working Team. & @7 g: G5 C5 D) FXMTR/CVR Transmitter/Receiver." _+ H, L R7 L! Q# ?/ I/ e XO Executive Officer. # y4 C8 x1 O' ^5 G/ i5 D1 [XoDis Exoatmospheric Discrimination.* u6 I$ n% d) b# @; \, t! v0 { XOX Assistant Deputy Chief of Staff for Operations (Office Code).6 q% x* q$ d0 Z! N3 U5 l XRL See X-Ray Laser.1 J: f* e# d/ b! |( o( w XRS USAF/ESC Staff Symbol. ; l3 U- m* s# ~! X+ {3 @5 }XTB Exoatmospheric Test Bed.# _5 w$ E8 E; R1 G; y XTV Experimental Test Vehicle. : H" v$ O' n. IXwindows Unix graphics interface. 2 c: }9 ]4 A' f! W2 {% M; [Yield (or Energy " z; h, |4 `4 TYield) 6 X) ~/ v2 k" |, T6 ]% `. [' d2 HThe total effective energy released in a nuclear (or atomic) explosion. It is + B: ^' [) B# Y% P, q' Iusually expressed in terms of the equivalent tonnage of TNT required to produce2 b/ |- H0 Q, w0 C7 {5 }& r the same energy release in an explosion. The total energy yield is manifested3 w1 w$ G& O: ]: C* W6 U as nuclear radiation, thermal radiation, and shock (and blast) energy, the actual 1 p' {+ z+ ]- R5 t5 rdistribution being primarily dependent upon the medium in which the explosion' \! u# y v& ^3 f- j& z. l occurs, as well as the type of weapon and the time after detonation." d% P' k% N- [7 r Zero Point The location of the center of a burst of a nuclear weapon at the instant of 7 O8 N7 ~8 ]& T/ |detonation. The zero point may be in the air or on or beneath the surface of# s# N3 ?' g0 x* r" k# ~ \ land or water, dependent upon the type of burst; it is thus to be distinguished ( C3 R Q0 r% j2 b" n: {, afrom ground zero. # z- F' U$ G- |5 L( N2 vZIF Zero Insertion Force. " I$ E# q8 F6 a- \+ Z. {, MZULU Time Zone Indicator for Universal Time.# P# o$ l" m8 }, y8 i MDA GLOSSARY, VER. 4.09 X8 H, D# a7 A* @" P9 D# L9 k 3262 `& w0 L$ C5 Y' h/ Z% H2 r0 a Units of Measurement/ \' a6 z/ P5 H1 T, c0 Y* b; B+ X Keyword/Symbol Unit Name Aspect Measured& F" h7 M0 [% v+ S( j [ a ] ampere electric current( q, t! n; I6 F, k3 Z7 I [ angstrom ] angstrom length+ P- P3 ^$ \+ C [ b ] bit binary digit 0 or 16 _. m1 ~3 o5 P: M( T7 C9 p% ` [ bps ] bit per second bit transfer rate " Z5 \: n1 E) \( m# b[ C ] coulomb electric charge # J, R8 _; d8 G6 R! h6 G8 o$ o) v @1 p[ c; Ci ] curie radioactivity , {2 q7 M+ k2 _4 \[ cal ] calorie energy9 b a* ^2 w8 @) ?, | [ cal/sq cm ] calorie per square energy per area1 \7 y H" U" ~4 P, P) _2 I. e, B$ O# R centimeter / g9 z1 X: _! F+ p[ chan ] channel frequency path4 E+ M" j8 @ j' w3 i3 Z' i [ 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 volume4 e2 a. x( G7 u# j; b1 [4 K [ dB ] decibel signal strength) P$ g! b' n& E% f% U7 m [ deg ] degree plane angle+ }( |4 k7 z! |' l4 O" `' V* m [ deg K ] degree, Kelvin temperature- K! W9 P1 Q- }1 j' x' a4 y [ deg/s ] degree per second plane angle change rate# }8 ?5 i* }) g- J, {8 q( G6 v [ deg/s/s ] degree per second slew acceleration ; Q* a( s/ O. _per second . ~2 E3 ^- e/ G% M' f[ diam ] diameter length 6 i0 ^/ p/ B0 O" ^/ z[ dyn ] dyne force0 X0 p7 D8 X& T) y$ J [ eV ] electron-volt energy ' I# }+ n+ w O9 H[ G ] gauss magnetic flux density4 V a* |. j8 B: z+ U" q [ g ] 1) 9.808 meters per sec- 1) gravitational acceleraond per second; 2) gram tion constant; 2) mass 9 M" a! `# M9 R4 z I[ GHz ] gigahertz frequency2 y5 Q3 ^, M$ | ?$ U/ T- h' O# E [ Gy ] gray absorbed dose) B/ g' {3 J( ~: y2 _& g: J [ h ] hour time2 g z: H8 z+ E6 Y' ~ [ Hz ] hertz frequency ) }6 l$ F( e L) |9 O[ J ] joule energy/ s! L! s' X8 D+ k8 u [ J-T ] Joule -Thomson temperature change5 K# `. y3 {6 R6 q [ K ] Kelvin temperature3 e- [% n5 [0 D2 e n' f3 j3 Z [ kA ] kiloampere electric current8 T6 r9 W7 q& f# S# ?8 `( _1 b [ kb ] kilobit binary digit: l1 n* y2 s3 S L1 L& a# ~; i [ kb/s ] kilobit per second velocity (binary digit) % d% Y. [- i" q- Q% U& p$ E[ KeV ] kiloelectron-volt energy+ y2 K4 H7 W1 k" f ^* M [ kg/sq m ] kilogram per square pressure 2 a" z& x K( H$ Ometer& @' m, G) j' l [ KHz ] kilohertz frequency. \9 k8 I# I% o0 j+ @3 K. A* f [ kJ ] kilojoule energy; N2 @- t$ d7 X/ f [ kJ/kg ] kilojoule per kilo- specific energy ' }0 i8 ?( ~6 agram- g# q! c" e3 g# ]) O0 I, z [ kJ/sq cm ] kilojoule per square laser lethality1 | q8 |' r; O3 L( b6 q+ t: N* O/ Z' ] centimeter " g8 ]; s2 N, W3 h[ km ] kilometer length ! t7 [( V4 G6 w% Y' ?% C8 u[ km/s ] kilometer per second velocity " z- q5 d9 y/ Z# x# [$ X5 V[ KT ] kiloton yield , M( }) ~5 a- E7 Q9 ?9 ~[ kV ] kilovolt electromotive force; V2 t& v) [1 x [ kW ] kilowatt power/ M; y5 ?5 G+ ]% W4 q- x [ kW/kg ] kilowatt per kilogram specific power3 ]' G. ?& D% q Keyword/Symbol Unit Name Aspect Measured: ?9 ~& U% |+ p% r( S# r1 n% C; o MDA GLOSSARY, VER. 4.0 5 j7 ^/ p$ w2 o7 `/ Z; C$ N327 1 ] m+ D; a0 d8 B' G: T[ kW/m ] kilowatt per meter thermal transport . ?1 r2 ^& B# G[ kW/sq cm ] kilowatt per square energy flux - m4 c+ i7 Z! V; D6 p* [: y6 Q' ucentimeter 4 ]8 n0 y0 W a! H0 Z. ^: y7 W9 `[ m ] meter length& ]" l+ w% k$ K* z4 O [ Mbps ] megabit per second bit transfer rate ( l4 t+ q9 h$ v) g6 P[ MeV ] megaelectron-volt energy ) J }- m8 \% B4 J[ MFLOPS ] million floating point processing performance% n; D4 Q4 S" y+ x; w, [ operations per second2 J2 \7 F v2 c5 l( q [ MHz ] megahertz frequency7 `1 r) ?9 Y$ A- T- L2 z! K [ micro ] micro a one-millionth part7 [; f; O/ ]1 ?$ f [ micron ] micrometer length( x/ J- Y+ b9 [, b: d [ milli ] milli a one-thousandth part2 H& C7 m; p+ W5 H' G& q. J7 ^ mJ millijoule' _) u# n% j8 r [ min ] minute time' _/ X7 ?) Z* J [ mips ] million instructions processing speed & a8 |( K% o5 m) c' \per second* W" w- u2 i/ c- m* k; x [ MJ ] megajoule energy : U7 L# q1 _. ^# y- U! {[ mm ] millimeter length 0 O2 o7 n! u0 W0 E: j3 ?0 |5 i. H[ mops ] million operations processing performance4 t" | T0 k' A# J! u per second L& C' Y: B3 ]; f1 J+ e& V [ mrad ] milliradian plane angle / p5 _2 s& L" H+ f6 e, F[ m/s ] meter per second velocity 4 ?! C" @( q2 y1 {. H[ ms ] millisecond time3 ]( s) ]- z0 w# J( Y3 W3 e3 d [ MT ] megaton yield " R- y4 h4 [) S( _[ MV/m ] megavolt per meter electric field strength1 Z8 }2 j/ b7 f- { [ MW ] megawatt power 1 @3 R# U3 v$ l" u- t. U[ MW/sr ] megawatt per steradian laser brightness" M, n0 X% {- l' P3 \* m } [ N-s ] newton-second force - r0 b6 B$ P, u$ g[ ns ] nanosecond frequency ?7 s2 ]- }4 |( C2 h [ parsec ] parsec astronomical distance8 C" ]) s" \% [0 _- D. N [ Pa-s ] pascal-second pressure 1 i, q w$ S: t d[ R ] roentgen radiation dose. m/ b7 u3 c+ k [ RAD ] rad absorbed dose2 {2 \. m% E7 C' o& Y5 r [ radian ] radian plane angle ( E( r- g8 q+ Y' L5 z[ rad/s ] radian per second angular drift- m$ g! a& \: } [ ratio ] percentage efficiency 8 u8 `0 a$ n3 r7 H" ^8 k[ rem ] rem ionizing radiation 3 Z$ r V; H2 u7 m. W' m% q[ s ] second time8 k& e: Z8 i5 @ [ sq m ] square meter area # ~, d6 a0 o& e- C* [/ S6 L' J[ sq m/yr ] square meter per year area per time" p: j* \6 |3 i u [ sr ] steradian absorbed radiation dose8 Z) c0 F# y: \0 \1 B, H. I [ mrad ] microradian plane angle / R2 ]! e' a [7 g6 @[ V ] volt electromotive force 0 m$ H5 O1 D S, y u$ x[ W ] watt power 8 X N9 f/ U8 p4 U[ W/kg ] watt per kilogram specific power7 B/ Z2 O" r4 K: q' r [ W/sq cm ] watt per square heat flux, n* x* W; n; f" o8 b4 o3 Z centimeter 6 q- d( c% l" H2 L[ W/sq m ] watt per square meter energy flux ' A( |% z& A2 L: u[ W/sr ] watt per steradian radiant intensity; a/ {( E2 U& a6 A: o$ ^ [ W/sr sq m ] watt per steradian radiance! o, L+ v" W; M5 V# |7 r; r square meter . h% f. H4 h3 t5 i. x( A[ 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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