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玻璃漏斗 Glass funnel long stem
9 f% \0 o5 u( _$ }; y V2 }/ t' D试管 test tube test tube brush test tube holder test tube rack
* U* D, E4 ~* M! r& V* J2 k蒸发皿 evaporating dish small
: _# K n F$ p8 Q烧杯 beaker
5 M" p k2 j2 b' p锥形瓶 Erlenmeyer
- W! R& r7 L4 a$ b6 R" d8 J" t量筒 grad cylinder, F! X6 C6 ~9 [ E g
洗瓶 plastic wash bottle
; V3 o# ^. e. y3 h/ {8 U勺皿 casserole ,small stoppered flask
. h" V/ P% f- H2 B+ D" f分液漏斗 separalory funnel
2 O6 _6 M2 {+ Fwarter bath/oil bath- }: S4 _% ]- b0 r7 V ~( _
strring bar
0 ?# M# R3 Z, Y! }" Q2 @6 Lmagnetic stirrer
0 M5 ]( c% Y9 R( R R冷凝器 condenser
! j: n" J. o9 v7 \2 kBallast bottle3 u2 B: y" ? b7 w
圆颈烧瓶 Round-bottom flask
/ \; d) @4 E1 ?" l, s; [7 D5 U. v# z试剂瓶 reagent bottles
8 _$ n; \2 V" u% W, Q: b4 l7 w. ^托盘天平 platform balance 台秤
`% F. D+ R9 X8 W0 j0.1g 托盘pan 指针刻度表pointer and scale
$ C z+ Z) j& x1 mcrossbeams and sliding weights 游码
3 i' E8 s/ ~' p) d分析天平 two-pan/single-pan analytical balance: k7 ~( b; G3 _* M, z
滴定管 burette glass bead(basic) nozzle
0 Q1 I) d1 I! v: `移液管 pipette 胖肚 elongated glass bulb
9 X9 ~3 H0 L3 F0 }洗耳球 rubber suction bulb
; U' q" [. V: c5 G; q) [# N. r玻棒 glass rod
) p# f G- G& y玻璃活塞 stopcock: `' C. H% q+ C" m1 w
容量瓶 pyknowmeter flasks N2 x7 z, [; X3 M
比重瓶 (one-mark)volumetric flasks
9 q' u- b N0 I" e: ^胖肚吸管 one-mark pipette% P) z5 A' ~/ [7 c& L* c! {
刻度吸管 graduated pipettes
9 M8 Y! f2 u7 |# `! c2 n% u. U3 Z锥形瓶(conical flask) 250ml×4 药匙(medicine spoon)×1 - A3 {3 B K6 h: l* e: D: y, C, ]
(Erlenmeyer flask) 100 ml×3 滴管(drip tube;dropper)×2
- d9 R+ O6 R* t- n; U烧杯(beaker) 500 ml×1 玻棒(Glass stic)×20 a% V9 ? }' R4 u0 Z1 g
250 ml×3 木试管夹(test tube clamp;test tube holder)×1
' y1 z2 @ g/ w% ?$ A0 K; _100 ml×3 胖肚吸管(straws) 25 ml×1 7 K6 O% v4 @0 f, M! G" E' i3 D/ J' o
50 ml×2 10 ml×17 c* d# h. `4 Z. Q; n% l
容量瓶(volumetric flask) 100 ml×2 乳钵(morta)×1
6 z8 i# G. z0 ~* B: w2 x5 B O$ H50 ml×4 洗耳球(ear washing bulb) ~5 U2 R ]/ }1 M& y' O# D H9 t. Z
碘量瓶 (Iodine numoe flask; iodine flask) 500 ml×3
5 x: b: H! ^5 y; t* }- }试剂瓶 (reagent bottle) (无色)×2
/ N) J/ L5 j3 T(棕色)×2 配洗液:9 n0 n Z& f8 \ R0 n
量筒(cylinder) 100 ml×1 K2Cr2O72g+5ml水→65mlH2SO4& U; c1 w( {/ |4 c4 T
(graduated cylinder)10ml×1 边加边搅拌(stir)。
: ]) g3 ^8 `6 U/ s% G/ n铁支架(siderocradle)+蝴蝶架: Y: m. s7 ]. j9 d) j
白瓷板(White Porcelain Board ) (一)清点仪器(to count;to make an inventory)! E1 q8 P, ]( P& n: n
酸式滴定管(Acid burette) 25 ml×1 配洗液 (Lotion)& Y. J) G9 `" X7 ~3 F+ E6 c7 \
碱式滴定管(Alkali burette)25 ml×1 一般仪器的洗涤/ @4 d/ F. \4 s5 I$ _) f
直型冷凝器(rectocondensor)×1 容量瓶(volumetric flask)
0 w2 w0 F& Y d+ j8 ?漏斗架 (funnel stand) ×2 移液管(pipe)1 p9 G+ X- {/ a5 [) y/ ?/ r" c5 W
水浴锅(water bath kettle) ×1
; V3 ?, Q3 n: t温度计(Thermometer;hygrometer;hydroscope) ×1
6 y1 b- d6 d9 C3 d电炉(electric furnace;electric hot plate;electric stove) 四人一个
: n' k* }! H6 u: q, j& S0 w2 C h分析化学:analytical chemistry
3 j0 T$ j. f1 f0 e4 U1 d1 M定性分析:qualitative analysis
. q! ]$ ?( S. a8 w' Y- Q: G& b定量分析:quantitative analysis! ~8 }4 m) S" I! y$ E
物理分析:physical analysis# D3 X# \% x* |) m2 {$ n7 X% s
物理化学分析:physico-chemical analysis2 O7 _2 ]7 V7 t) o& H3 g
仪器分析法:instrumental analysis
- l& f: O5 `4 V流动注射分析法:flow injection analysis;FIA
- O5 u* D5 |* M& }; s& W顺序注射分析法:sequentical injection analysis;SIA
3 t4 F. q- F' ]化学计量学:chemometrics
0 @& @3 D( \2 p) I" Y绝对误差:absolute error
( z- A( j& b8 U$ L5 d9 U+ P1 L相对误差:relative error
1 V L4 d) S, Y7 ]6 P系统误差:systematic error- q. {) j$ A1 r x" X
可定误差:determinate error- [% {$ q2 `+ r7 O S4 h: M" n
随机误差:accidental error
. v* L; L9 r) F r不可定误差:indeterminate error; m* l& F* K( k7 {+ V
准确度:accuracy' t, U0 X3 m& B6 r1 e& C
精确度:precision8 D; s1 A) q z$ Q/ }, x: G6 z( E
偏差:debiation,d
5 Z* i/ @ G' I' p平均偏差:average debiation
* \* `- Z. z2 J! Z相对平均偏差:relative average debiation1 r5 E7 `) Q. e) D$ {% Y1 @
标准偏差(标准差):standerd deviation;S
$ q% R6 Y0 \ u# s相对平均偏差:relatibe standard deviation;RSD" [# m0 d8 Y$ G, V' F$ u
变异系数:coefficient of variation2 x: D/ |& w) b- m2 m% c3 x
误差传递:propagation of error8 e; Q2 l ~1 `+ ]( w0 C6 Y
有效数字:significant figure& ?; j7 @8 i# ?6 A
置信水平:confidence level1 o0 A4 X/ ~2 h5 P
显著性水平:level of significance
$ K7 ^. o* b6 H" h! U' M合并标准偏差(组合标准差):pooled standard debiation
4 \# K& l- s# ~0 j, e: W, G舍弃商:rejection quotient ;Q # S5 v" n0 ~# E* s
滴定分析法:titrametric analysis
9 s- t6 i d1 I滴定:titration2 Q+ Q) t( L" ~2 i* D6 d( ~4 O
容量分析法:volumetric analysis
k6 {- a8 p( z) W9 s2 a化学计量点:stoichiometric point) d1 j/ T$ u B D
等当点:equivalent point, R3 V2 Y8 h" E) d) P( b' B
电荷平衡:charge balance% V* H! u( `$ k" c6 Z& D( w
电荷平衡式:charge balance equation4 t' E, @, @0 d# r, `
质量平衡:mass balance
5 {! e$ J, O! v! y' z- c3 m物料平衡:material balance8 ?3 I' I3 @! q+ y
质量平衡式:mass balance equation6 x3 V, v' f2 E
酸碱滴定法:acid-base titrations
4 H% R5 Y8 j% R r质子自递反应:autoprotolysis reaction
! w1 \/ l: c" ?, o6 |质子自递常数:autoprotolysis constant
/ O) R% X* p$ P2 q1 f/ I" E质子条件式:proton balance equation1 Y# |9 n) }" S( s
酸碱指示剂:acid-base indicator
& z/ w6 i+ Z" U( _. {0 [& X0 z指示剂常数:indicator constant
; u( p1 v/ M& l9 \3 ]$ h6 w变色范围:colour change interval
, r" F! w4 y! t8 |+ g$ f混合指示剂:mixed indicator4 u, t0 S) n! P s
双指示剂滴定法:double indicator titration
( X+ X& Y" L9 j非水滴定法:nonaqueous titrations
" L/ D) p" |' c1 b$ u质子溶剂:protonic solvent
5 C9 X( s: d/ A酸性溶剂:acid solvent
! U2 I9 s; L- d$ {: r碱性溶剂:basic solvent
) z+ t, r9 Q4 z; m- ` F6 |. @两性溶剂:amphototeric solvent
; E5 |6 ]7 ?3 D& c无质子溶剂:aprotic solvent
4 t; _+ s2 v1 y3 _2 k4 `$ K0 v均化效应:differentiating effect2 e/ g* m M: ~! \6 M
区分性溶剂:differentiating solvent
4 L, e! }% d0 s8 H4 A- e离子化:ionization
2 j$ X9 \2 z0 R" o) I' e, S$ {离解:dissociation5 |# A1 @( }: e% {1 o5 U
结晶紫:crystal violet
* @6 V, l) ^! G) |$ X. k萘酚苯甲醇: α-naphthalphenol benzyl alcohol' e- T3 R4 q* f( J' Y
奎哪啶红:quinadinered
; Q; M. g% z$ q( G' O1 Q$ ?! ?; p百里酚蓝:thymol blue
/ D. o( ~0 {2 M# {$ F- X& c% K; M偶氮紫:azo violet& N3 B1 ]# J4 Z( }, I6 v& Y8 M
溴酚蓝:bromophenol blue: m2 I) `" ^" v4 Q# n
配位滴定法:compleximetry
' \$ x# O+ ~% R( L0 j' k乙二胺四乙酸:ethylenediamine tetraacetic acid,EDTA4 W+ f9 n# x+ E- W8 K* N
螯合物:chelate compound& V2 {- _/ X6 g7 X
金属指示剂:metal lochrome indcator $ } D; K Z! z/ K$ f3 m
氧化还原滴定法:oxidation-reduction titration
" @, h! Z5 }5 X& K- _9 J7 A: L碘量法:iodimetry* U! K/ i! ]# j
溴量法:bromimetry ]
3 ^2 a$ j" S/ W. p) s溴量法:bromine method
% s; @5 p" C; {+ D5 K' Z1 w5 G6 l铈量法:cerimetry! F$ U/ r* R/ c4 ~" @4 [* K
高锰酸钾法:potassium permanganate method
! ~+ U, d: t' r7 V8 N条件电位:conditional potential5 J4 E$ n D2 D, a2 ]% k0 ~4 _
溴酸钾法:potassium bromate method( A' X8 t L% r) }
硫酸铈法:cerium sulphate method) O1 M+ {8 X2 d7 D# x" L9 L( F4 h
偏高碘酸:metaperiodic acid" J! D/ @& t5 Q" r7 g m
高碘酸盐:periodate; T/ K V) E( s( K) u6 N
亚硝酸钠法:sodium nitrite method
. R; N8 @: F+ S ~; u重氮化反应:diazotization reaction+ f3 u9 L+ z& n, H" K! `
重氮化滴定法:diazotization titration
$ K2 r) O+ r" p. ^5 f/ F亚硝基化反应:nitrozation reaction
* C/ C& P& I! \' `, K亚硝基化滴定法:nitrozation titration
+ Q7 t5 w: x6 S |外指示剂:external indicator $ R. v7 L# A& U' a2 d
外指示剂:outside indicator/ [- D( L/ X8 j! O2 W0 H
重铬酸钾法:potassium dichromate method7 T s" [3 d' K
沉淀滴定法:precipitation titration8 R& ^ v2 _. C- h/ B* M, o M
容量滴定法:volumetric precipitation method
2 u6 E |& Q* \; M% o" D银量法:argentometric method
% o9 ^ ]! E* C) @5 T4 @7 |9 w1 t2 c重量分析法:gravimetric analysis
' a K# E* V+ g4 X' Q挥发法:volatilization method
J O7 E% V) R引湿水(湿存水):water of hydroscopicity% W$ A( i4 |/ o* [9 x
包埋(藏)水:occluded water
! k4 p B y2 d U" D/ u: H吸入水:water of imbibition! Q& C) ?9 M4 h
结晶水:water of crystallization
9 j5 ^3 d0 @% y# M! W% N8 `4 B1 ~组成水:water of composition
+ m6 x Y1 B; d% f2 W1 F% r& X液-液萃取法:liquid-liquid extration
/ U5 T, t. }6 ]' E' ^) T5 D溶剂萃取法:solvent extration
6 S3 e7 a9 q) N. i L反萃取:counter extraction9 V. ^" G# h$ Y( X0 A: \5 `
分配系数:partition coefficient
; L7 P9 l: W0 {5 F5 d; ^2 f分配比:distribution ratio& D& _3 ~7 q" ]4 z
离子对(离子缔合物):ion pair
" R: h' f* H8 Q8 U" U/ y7 C, W沉淀形式:precipitation forms: j: e9 {# o6 m8 c1 o7 z
称量形式:weighing forms
0 [" M O0 L$ w* f8 b物理分析:physical analysis0 h; b; k- J2 o( s Q# {5 ~
物理化学分析:physicochemical analysis
6 q+ L% i; g- Z1 C0 n仪器分析:instrumental analysis. U2 `* z. d, t
电化学分析:electrochemical analysis* i7 T4 b" l, S
电解法:electrolytic analysis method/ k0 h$ k4 Q) K: M3 e& u7 H4 O7 V- r
电重量法:electtogravimetry+ P! U* K5 q1 s) A
库仑法:coulometry( o' _! ]. v& i$ d+ Z
库仑滴定法:coulometric titration
h6 z: `! g7 m, |0 G+ k电导法:conductometry. Y+ d* W, ^3 C4 O+ b3 W( Z
电导分析法:conductometric analysis3 T) ~& t5 x9 G) z% U
电导滴定法:conductometric titration! G) h7 y% k0 G
电位法:potentiometry7 K. N/ ~$ k$ b+ f1 I6 R/ ]- S
直接电位法:dirext potentiometry
) f7 i( E& Q1 o9 u7 t% A4 ]' e电位滴定法:potentiometric titration' B( @% t, n" `7 U; B( D
伏安法:voltammetry
; B, f3 _4 P' v: Z; Z# c* ^) e极谱法:polarography
4 X+ T) M; t- V+ E/ \ A溶出法:stripping method8 G" p8 N2 @ J) [
电流滴定法:amperometric titration
7 T+ q; ]# s' f# j化学双电层:chemical double layer$ n1 B4 x( D# F9 U% Y* ~- o2 n
相界电位:phase boundary potential
- V+ j0 ^% X5 Z% ?) r金属电极电位:electrode potential3 K' C- E9 \4 \( x+ j6 u
化学电池:chemical cell* h$ ^$ T0 ~/ M; u( n
液接界面:liquid junction boundary5 O! o+ `9 H* u( F o
原电池:galvanic cell
1 D. _ F3 ^5 R7 n3 C) _电解池:electrolytic cell
# S6 R. M- ?: I' u! E/ M; X负极:cathrode2 F+ S2 H4 C1 o
正极:anode
' C' v. w+ `/ {' g( i电池电动势:eletromotive force
" w* k+ z/ w! x. o) O0 v指示电极:indicator electrode
& ? M4 m3 ?$ y+ L& D参比电极:reference electroade
4 T1 s* R. R' }5 W4 Q" _标准氢电极:standard hydrogen electrode" @. N8 k3 G2 P- z4 ^0 F& I B
一级参比电极:primary reference electrode
; N! T- K D$ u4 c4 T$ G* n饱和甘汞电极:standard calomel electrode' r- S+ @% I" q) o
银-氯化银电极:silver silver-chloride electrode
" [( G8 t) K+ U1 {- t% m4 i* G液接界面:liquid junction boundary
8 ] ]; b$ Z) L# H不对称电位:asymmetry potential+ E/ n- P& e- l l: s
表观PH值:apparent PH
, r7 _- ^% A3 F9 ^& I复合PH电极:combination PH electrode
* o7 G# a4 N$ U. t离子选择电极:ion selective electrode& x5 f {3 E1 T+ `+ I
敏感器:sensor' K$ y+ e' F6 x2 ~! J" P
晶体电极:crystalline electrodes
+ c8 O# b7 ~0 F2 Z. d8 w均相膜电极:homogeneous membrance electrodes4 K* F( Y/ m( R4 h
非均相膜电极:heterog eneous membrance electrodes
6 g) B8 | Y" W* u# h, z3 h非晶体电极:non- crystalline electrodes
. C" N* ?& J0 s刚性基质电极:rigid matrix electrode: a% b6 p, W3 E" ~. ^4 [3 x8 c
流流体载动电极:electrode with a mobile carrier8 k/ E' _$ {. y; B) h' M1 W" i
气敏电极:gas sensing electrodes
4 m; O7 d# Z9 \5 N7 O酶电极:enzyme electrodes6 A' f" n; ^8 S1 E$ } s5 K
金属氧化物半导体场效应晶体管:MOSFET
9 [' @, H f2 h: ?5 o离子选择场效应管:ISFET' z9 Z9 h7 T, s5 Z. V. }1 a
总离子强度调节缓冲剂:total ion strength adjustment buffer,TISAB, H4 l4 \) Y9 F0 A% X+ h4 u
永停滴定法:dead-stop titration- B4 E' G2 L% S" D9 k) E
双电流滴定法(双安培滴定法):double amperometric titration. N" i( l$ K/ u8 c" C, n3 B; G1 Z4 G
普朗克常数:Plank constant) w" c# P( d& |! M" t% ?6 R
电磁波谱:electromagnetic spectrum" t6 X j0 A5 J* C( F+ u' n
光谱:spectrum
. g9 `8 \2 H/ b光谱分析法:spectroscopic analysis
: ?: c3 v5 q7 l6 G( c原子发射光谱法:atomic emission spectroscopy6 B5 m5 x7 ^8 q( }6 n$ x
质量谱:mass spectrum% N2 C, I O' I7 X
质谱法:mass spectroscopy,MS
; T2 f. \; V, W0 p( f+ z紫外-可见分光光度法:ultraviolet and visible spectrophotometry;UV-vis9 I. `+ d2 U# `2 n, |- I+ H) c2 ~
肩峰:shoulder peak6 Y1 E$ k1 ?3 b% c. e* J% d
末端吸收:end absorbtion
8 | N0 U$ Y, l- @生色团:chromophore
8 m! p* j: ?: V3 d# }8 f助色团:auxochrome8 _- _( q% `2 q. k1 H' W8 m
红移:red shift. q- ^2 o- l) |, D+ P9 h2 l! z
长移:bathochromic shift- ~1 Z0 r3 t9 ]6 y/ E
短移:hypsochromic shift
9 A7 @3 i1 V& W- M M蓝(紫)移:blue shift8 _+ ?* |+ i4 r' s1 D, f. W( j
增色效应(浓色效应):hyperchromic effect* ]3 ?6 }: [- ~: L$ J4 a
减色效应(淡色效应):hypochromic effect
+ a- W- T/ i4 T% z强带:strong band3 j/ f, f4 ?6 v% ?8 F
弱带:weak band
% E) D9 \ L8 }6 Z5 v/ T8 \0 g吸收带:absorption band/ Y% S, q% d/ S O
透光率:transmitance,T
3 [* x# N* J% \* ]吸光度:absorbance# C+ X _# C4 x1 l8 K5 q
谱带宽度:band width
' z4 C; v, u# _9 c6 X1 b5 ]+ y杂散光:stray light o0 P2 t# x9 x" Q2 m4 p! v; N
噪声:noise 8 c! ?9 ?* e+ b: L4 Q9 o
暗噪声:dark noise$ T. X" |# _- X! \' g
散粒噪声:signal shot noise
5 ?( j( q; U8 c6 N1 x闪耀光栅:blazed grating' y( g$ o' [7 [( M6 a
全息光栅:holographic graaing
7 i0 g2 V) C) i: Q8 Y" R: `/ m光二极管阵列检测器:photodiode array detector
- ~. G; c/ v( U0 E9 T偏最小二乘法:partial least squares method ,PLS. U, J; l+ ~" }2 ?5 Y5 U1 j
褶合光谱法:convolution spectrometry
& ?& n: J4 D: i褶合变换:convolution transform,CT7 K- o T* e( R+ W
离散小波变换:wavelet transform,WT4 y5 @! B# x' q1 D& k: s
多尺度细化分析:multiscale analysis
3 I- t7 W n& W( @' I, D8 @" ~供电子取代基:electron donating group
( O* [: ]8 L+ |' b吸电子取代基:electron with-drawing group6 T" h+ \+ s5 y- ^ v$ L
荧光:fluorescence
' g: k o5 f8 [: c: l4 ^1 M% f荧光分析法:fluorometry
8 v! L5 f% t: \; @$ I8 ~+ i6 AX-射线荧光分析法:X-ray fulorometry' t- N! ]9 k2 U3 R* ^9 Z! N& s* c$ Q( s
原子荧光分析法:atomic fluorometry
6 v& c( E8 o$ T* [ b% ?分子荧光分析法:molecular fluorometry W" r. Q3 k: q$ X# [, U& ^$ T- W/ z
振动弛豫:vibrational relexation, M% z) m( F2 v
内转换:internal conversion: j0 }+ y) u# N4 S
外转换:external conversion
0 R( E2 M8 w( ^) A; ~1 v3 F体系间跨越:intersystem crossing# L/ V: _; L4 O- r2 k2 q
激发光谱:excitation spectrum4 S7 t) c9 P8 X* S: E
荧光光谱:fluorescence spectrum2 A4 L0 m: n7 H8 p4 T$ ~/ o( X: C1 }6 G- Q
斯托克斯位移:Stokes shift$ E+ R! s: G$ c& i4 e
荧光寿命:fluorescence life time: o# ^- u+ P( G" G9 @
荧光效率:fluorescence efficiency
: @; q+ ^7 G' M. p9 g; E: \荧光量子产率:fluorescence quantum yield3 W/ C" Q1 v5 n) U# `' }
荧光熄灭法:fluorescence quemching method7 @7 L3 R( K4 o* H7 @. a
散射光:scattering light
& b4 B& a: h6 S4 F* c! ~瑞利光:Reyleith scanttering light
8 @6 e9 o9 u: J3 w7 a拉曼光:Raman scattering light
, t: m: S% O, D) f4 |( o红外线:infrared ray,IR6 L8 h A2 U7 X$ C
中红外吸收光谱:mid-infrared absorption spectrum,Mid-IR
6 s0 B/ B# K' |& z远红外光谱:Far-IR* O$ Q' X! l2 `2 s
微波谱:microwave spectrum,MV
/ k" g6 A3 _* G% x: |红外吸收光谱法:infrared spectroscopy) \; W0 v: e. U* x
红外分光光度法:infrared spectrophotometry
2 B* e; f2 k# }振动形式:mode of vibration P' _7 y3 G! l# L; p' h" Y' j
伸缩振动:stretching vibration6 G3 k7 W' L% a. l7 q
对称伸缩振动:symmetrical stretching vibration5 V. h1 Y. o. u3 s" G
不对称伸缩振动:asymmetrical stretching vibration. o j. A0 Y) P; u- R8 w: b" ^. R
弯曲振动:bending vibration
) j; w, k" K" B' {% G变形振动:formation vibration; p* ~3 @* n+ K' S' \+ X$ s
面内弯曲振动:in-plane bending vibration,β( y& a) A$ U; P/ i( X3 @ m
剪式振动:scissoring vibration,δ
3 A( K+ v$ @! D. B% j# @面内摇摆振动:rocking vibration,ρ ! q8 U4 G, o! ^6 ]4 C( ?2 }
核磁共振:nuclear magnetic resonance,NMR' t6 _. R% O1 }+ I& o/ B2 N
核磁共振波谱:NMR spectrum
# S5 \6 X. M c: b5 \核磁共振波谱法:NMR spectroscopy% Y3 ]' F+ Q% c% `5 e
扫场:swept field
, ^; m0 @9 c- ?+ B' g# }扫频:seept frequency4 g$ Z# ]$ v) e; {3 s. ?" H
连续波核磁共振:continuous wave NMR,CW NMR, x- A+ I; {0 g( X' z' ^& \8 u
Fourier变换NMR:PFT-NMR,FT-NMR
4 Y) s) O! U9 a二维核磁共振谱:2D-NMR
% R0 G8 x8 p+ ?0 _1 w质子核磁共振谱:proton magnetic resonance spectrum,PMR0 j3 Y5 n7 X5 I/ K; f
氢谱:1H-NMR
8 _3 b" O L, S碳-13核磁共振谱:13C-NMR spectrum,13CNMR
, ?- T& R3 [7 \5 A3 ]6 _自旋角动量:spin angular momentum |
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发表于 2007-11-8 17:27:22