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宅男必备的互动触摸游戏有哪些-宅男必玩的触摸身体...

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宅男必备的互动触摸游戏有哪些-宅男必玩的触摸身体...

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2024-06-21 10:12·renshenglubushuwangdamingjieguoxinfeng，xinzhongyongqiyigunuanliu。tazhanqishen，geiliaoerziyigedadadeyongbao："shaxiaozi，nimennengdongshi，jiushiduiwomenzuihaodeliwu。"

380个(Ge)A-level基(Ji)础(Chu)化(Hua)学(Xue)常(Chang)用(Yong)英(Ying)语(Yu)词(Ci)汇(Hui)，先(Xian)马(Ma)后(Hou)看(Kan)2021-06-22 17:04·蔚(Wei)来(Lai)国(Guo)际(Ji)教(Jiao)育(Yu)在(Zai)线(Xian)俗(Su)话(Hua)说(Shuo)得(De)好(Hao)：学(Xue)好(Hao)数(Shu)理(Li)化(Hua)，走(Zou)遍(Bian)天(Tian)下(Xia)都(Du)不(Bu)怕(Pa)，而(Er)化(Hua)学(Xue)更(Geng)是(Shi)大(Da)学(Xue)录(Lu)取(Qu)时(Shi)偏(Pian)爱(Ai)的(De)几(Ji)个(Ge)科(Ke)目(Mu)之(Zhi)一(Yi)。不(Bu)少(Shao)小(Xiao)伙(Huo)伴(Ban)吵(Chao)吵(Chao)着(Zhuo)打(Da)卡(Ka)跪(Gui)求(Qiu)A-level常(Chang)用(Yong)英(Ying)语(Yu)词(Ci)汇(Hui)，听(Ting)到(Dao)这(Zhe)个(Ge)消(Xiao)息(Xi)我(Wo)们(Men)蔚(Wei)来(Lai)国(Guo)际(Ji)教(Jiao)育(Yu)教(Jiao)育(Yu)的(De)老(Lao)师(Shi)也(Ye)是(Shi)坐(Zuo)不(Bu)住(Zhu)了(Liao)！是(Shi)时(Shi)候(Hou)亮(Liang)出(Chu)这(Zhe)份(Fen)蔚(Wei)来(Lai)国(Guo)际(Ji)教(Jiao)育(Yu)老(Lao)师(Shi)整(Zheng)理(Li)已(Yi)久(Jiu)并(Bing)且(Qie)会(Hui)时(Shi)时(Shi)更(Geng)新(Xin)的(De)“A-level基(Ji)础(Chu)化(Hua)学(Xue)常(Chang)用(Yong)英(Ying)语(Yu)词(Ci)汇(Hui)大(Da)全(Quan)”，实(Shi)用(Yong)性(Xing)大(Da)爆(Bao)炸(Zha)，必(Bi)须(Xu)先(Xian)马(Ma)后(Hou)看(Kan)啊(A)！1.The Ideal-Gas Equation 理(Li)想(Xiang)气(Qi)体(Ti)状(Zhuang)态(Tai)方(Fang)程(Cheng)2. Partial Pressures 分(Fen)压(Ya)3. Real Gases: Deviation from Ideal Behavior 真(Zhen)实(Shi)气(Qi)体(Ti)：对(Dui)理(Li)想(Xiang)气(Qi)体(Ti)行(Xing)为(Wei)的(De)偏(Pian)离(Li)4. The van der Waals Equation 范(Fan)德(De)华(Hua)方(Fang)程(Cheng)5. System and Surroundings 系(Xi)统(Tong)与(Yu)环(Huan)境(Jing)6. State and State Functions 状(Zhuang)态(Tai)与(Yu)状(Zhuang)态(Tai)函(Han)数(Shu)7. Process 过(Guo)程(Cheng)8. Phase 相(Xiang)9. The First Law of Thermodynamics 热(Re)力(Li)学(Xue)第(Di)一(Yi)定(Ding)律(Lv)10. Heat and Work 热(Re)与(Yu)功(Gong)11. Endothermic and Exothermic Processes 吸(Xi)热(Re)与(Yu)发(Fa)热(Re)过(Guo)程(Cheng)12. Enthalpies of Reactions 反(Fan)应(Ying)热(Re)13. Hess’s Law 盖(Gai)斯(Si)定(Ding)律(Lv)14. Enthalpies of Formation 生(Sheng)成(Cheng)焓(Zuo)15. Reaction Rates 反(Fan)应(Ying)速(Su)率(Lv)16. Reaction Order 反(Fan)应(Ying)级(Ji)数(Shu)17. Rate Constants 速(Su)率(Lv)常(Chang)数(Shu)18. Activation Energy 活(Huo)化(Hua)能(Neng)19. The Arrhenius Equation 阿(A)累(Lei)尼(Ni)乌(Wu)斯(Si)方(Fang)程(Cheng)20. Reaction Mechanisms 反(Fan)应(Ying)机(Ji)理(Li)21. Homogeneous Catalysis 均(Jun)相(Xiang)催(Cui)化(Hua)剂(Ji)22. Heterogeneous Catalysis 非(Fei)均(Jun)相(Xiang)催(Cui)化(Hua)剂(Ji)23. Enzymes 酶(Mei)24. The Equilibrium Constant 平(Ping)衡(Heng)常(Chang)数(Shu)25. the Direction of Reaction 反(Fan)应(Ying)方(Fang)向(Xiang)26. Le Chatelier’s Principle 列(Lie)·沙(Sha)特(Te)列(Lie)原(Yuan)理(Li)27. Effects of Volume, Pressure, Temperature Changes and Catalysts 体(Ti)积(Ji)，压(Ya)力(Li)，温(Wen)度(Du)变(Bian)化(Hua)以(Yi)及(Ji)催(Cui)化(Hua)剂(Ji)的(De)影(Ying)响(Xiang)28. Spontaneous Processes 自(Zi)发(Fa)过(Guo)程(Cheng)29. Entropy (Standard Entropy) 熵(Zuo)（标(Biao)准(Zhun)熵(Zuo)）30. The Second Law of Thermodynamics 热(Re)力(Li)学(Xue)第(Di)二(Er)定(Ding)律(Lv)31. Entropy Changes 熵(Zuo)变(Bian)32. Standard Free-Energy Changes 标(Biao)准(Zhun)自(Zi)由(You)能(Neng)变(Bian)33. Acid-Bases 酸(Suan)碱(Jian)34. The Dissociation of Water 水(Shui)离(Li)解(Jie)35. The Proton in Water 水(Shui)合(He)质(Zhi)子(Zi)36. The pH Scales pH值(Zhi)37. Bronsted-Lowry Acids and Bases Bronsted-Lowry 酸(Suan)和(He)碱(Jian)38. Proton-Transfer Reactions 质(Zhi)子(Zi)转(Zhuan)移(Yi)反(Fan)应(Ying)39. Conjugate Acid-Base Pairs 共(Gong)轭(Zuo)酸(Suan)碱(Jian)对(Dui)40. Relative Strength of Acids and Bases 酸(Suan)碱(Jian)的(De)相(Xiang)对(Dui)强(Qiang)度(Du)41. Lewis Acids and Bases 路(Lu)易(Yi)斯(Si)酸(Suan)碱(Jian)42. Hydrolysis of Metal Ions 金(Jin)属(Shu)离(Li)子(Zi)的(De)水(Shui)解(Jie)43. Buffer Solutions 缓(Huan)冲(Chong)溶(Rong)液(Ye)44. The Common-Ion Effects 同(Tong)离(Li)子(Zi)效(Xiao)应(Ying)45. Buffer Capacity 缓(Huan)冲(Chong)容(Rong)量(Liang)46. Formation of Complex Ions 配(Pei)离(Li)子(Zi)的(De)形(Xing)成(Cheng)47. Solubility 溶(Rong)解(Jie)度(Du)48. The Solubility-Product Constant Ksp 溶(Rong)度(Du)积(Ji)常(Chang)数(Shu)49. Precipitation and separation of Ions 离(Li)子(Zi)的(De)沉(Chen)淀(Dian)与(Yu)分(Fen)离(Li)50. Selective Precipitation of Ions 离(Li)子(Zi)的(De)选(Xuan)择(Ze)沉(Chen)淀(Dian)51. Oxidation-Reduction Reactions 氧(Yang)化(Hua)还(Huan)原(Yuan)反(Fan)应(Ying)52. Oxidation Number 氧(Yang)化(Hua)数(Shu)53. Balancing Oxidation-Reduction Equations 氧(Yang)化(Hua)还(Huan)原(Yuan)反(Fan)应(Ying)方(Fang)程(Cheng)的(De)配(Pei)平(Ping)54. Half-Reaction 半(Ban)反(Fan)应(Ying)55. Galvani Cell 原(Yuan)电(Dian)池(Chi)56. Voltaic Cell 伏(Fu)特(Te)电(Dian)池(Chi)57. Cell EMF 电(Dian)池(Chi)电(Dian)动(Dong)势(Shi)58. Standard Electrode Potentials 标(Biao)准(Zhun)电(Dian)极(Ji)电(Dian)势(Shi)59. Oxidizing and Reducing Agents 氧(Yang)化(Hua)剂(Ji)和(He)还(Huan)原(Yuan)剂(Ji)60. The Nernst Equation 能(Neng)斯(Si)特(Te)方(Fang)程(Cheng)61. Electrolysis 电(Dian)解(Jie)62. The Wave Behavior of Electrons 电(Dian)子(Zi)的(De)波(Bo)动(Dong)性(Xing)63. Bohr’s Model of The Hydrogen Atom 氢(Qing)原(Yuan)子(Zi)的(De)波(Bo)尔(Er)模(Mo)型(Xing)64. Line Spectra 线(Xian)光(Guang)谱(Pu)65. Quantum Numbers 量(Liang)子(Zi)数(Shu)66. Electron Spin 电(Dian)子(Zi)自(Zi)旋(Xuan)67. Atomic Orbital 原(Yuan)子(Zi)轨(Gui)道(Dao)68. The s (p, d, f) Orbital s（p，d，f）轨(Gui)道(Dao)69. Many-Electron Atoms 多(Duo)电(Dian)子(Zi)原(Yuan)子(Zi)70. Energies of Orbital 轨(Gui)道(Dao)能(Neng)量(Liang)71. The Pauli Exclusion Principle 泡(Pao)林(Lin)不(Bu)相(Xiang)容(Rong)原(Yuan)理(Li)72. Electron Configurations 电(Dian)子(Zi)构(Gou)型(Xing)73. The Periodic Table 周(Zhou)期(Qi)表(Biao)74. Row 行(Xing)75. Group 族(Zu)76. Isotopes, Atomic Numbers, and Mass Numbers 同(Tong)位(Wei)素(Su)，原(Yuan)子(Zi)数(Shu)，质(Zhi)量(Liang)数(Shu)77. Periodic Properties of the Elements 元(Yuan)素(Su)的(De)周(Zhou)期(Qi)律(Lv)78. Radius of Atoms 原(Yuan)子(Zi)半(Ban)径(Jing)79. Ionization Energy 电(Dian)离(Li)能(Neng)80. Electronegativity 电(Dian)负(Fu)性(Xing)81. Effective Nuclear Charge 有(You)效(Xiao)核(He)电(Dian)荷(He)82. Electron Affinities 亲(Qin)电(Dian)性(Xing)83. Metals 金(Jin)属(Shu)84. Nonmetals 非(Fei)金(Jin)属(Shu)85. Valence Bond Theory 价(Jia)键(Jian)理(Li)论(Lun)86. Covalence Bond 共(Gong)价(Jia)键(Jian)87. Orbital Overlap 轨(Gui)道(Dao)重(Zhong)叠(Die)88. Multiple Bonds 重(Zhong)键(Jian)89. Hybrid Orbital 杂(Za)化(Hua)轨(Gui)道(Dao)90. The VSEPR Model 价(Jia)层(Ceng)电(Dian)子(Zi)对(Dui)互(Hu)斥(Chi)理(Li)论(Lun)91. Molecular Geometries 分(Fen)子(Zi)空(Kong)间(Jian)构(Gou)型(Xing)92. Molecular Orbital 分(Fen)子(Zi)轨(Gui)道(Dao)93. Diatomic Molecules 双(Shuang)原(Yuan)子(Zi)分(Fen)子(Zi)94. Bond Length 键(Jian)长(Chang)95. Bond Order 键(Jian)级(Ji)96. Bond Angles 键(Jian)角(Jiao)97. Bond Enthalpies 键(Jian)能(Neng)98. Bond Polarity 键(Jian)矩(Ju)99. Dipole Moments 偶(Ou)极(Ji)矩(Ju)100. Polarity Molecules 极(Ji)性(Xing)分(Fen)子(Zi)101. Polyatomic Molecules 多(Duo)原(Yuan)子(Zi)分(Fen)子(Zi)102. Crystal Structure 晶(Jing)体(Ti)结(Jie)构(Gou)103. Non-Crystal 非(Fei)晶(Jing)体(Ti)104. Close Packing of Spheres 球(Qiu)密(Mi)堆(Dui)积(Ji)105. Metallic Solids 金(Jin)属(Shu)晶(Jing)体(Ti)106. Metallic Bond 金(Jin)属(Shu)键(Jian)107. Alloys 合(He)金(Jin)108. Ionic Solids 离(Li)子(Zi)晶(Jing)体(Ti)109. Ion-Dipole Forces 离(Li)子(Zi)偶(Ou)极(Ji)力(Li)110. Molecular Forces 分(Fen)子(Zi)间(Jian)力(Li)111. Intermolecular Forces 分(Fen)子(Zi)间(Jian)作(Zuo)用(Yong)力(Li)112. Hydrogen Bonding 氢(Qing)键(Jian)113. Covalent-Network Solids 原(Yuan)子(Zi)晶(Jing)体(Ti)114. Compounds 化(Hua)合(He)物(Wu)115. The Nomenclature, Composition and Structure of Complexes 配(Pei)合(He)物(Wu)的(De)命(Ming)名(Ming)，组(Zu)成(Cheng)和(He)结(Jie)构(Gou)116. Charges, Coordination Numbers, and Geometries 电(Dian)荷(He)数(Shu)、配(Pei)位(Wei)数(Shu)、及(Ji)几(Ji)何(He)构(Gou)型(Xing)117. Chelates 螯(Zuo)合(He)物(Wu)118. Isomerism 异(Yi)构(Gou)现(Xian)象(Xiang)119. Structural Isomerism 结(Jie)构(Gou)异(Yi)构(Gou)120. Stereoisomerism 立(Li)体(Ti)异(Yi)构(Gou)121. Magnetism 磁(Ci)性(Xing)122. Electron Configurations in Octahedral Complexes 八(Ba)面(Mian)体(Ti)构(Gou)型(Xing)配(Pei)合(He)物(Wu)的(De)电(Dian)子(Zi)分(Fen)布(Bu)123. Tetrahedral and Square-planar Complexes 四(Si)面(Mian)体(Ti)和(He)平(Ping)面(Mian)四(Si)边(Bian)形(Xing)配(Pei)合(He)物(Wu)124. General Characteristics 共(Gong)性(Xing)125. s-Block Elements s区(Qu)元(Yuan)素(Su)126. Alkali Metals 碱(Jian)金(Jin)属(Shu)127. Alkaline Earth Metals 碱(Jian)土(Tu)金(Jin)属(Shu)128. Hydrides 氢(Qing)化(Hua)物(Wu)129. Oxides 氧(Yang)化(Hua)物(Wu)130. Peroxides and Superoxides 过(Guo)氧(Yang)化(Hua)物(Wu)和(He)超(Chao)氧(Yang)化(Hua)物(Wu)131. Hydroxides 氢(Qing)氧(Yang)化(Hua)物(Wu)132. Salts 盐(Yan)133. p-Block Elements p区(Qu)元(Yuan)素(Su)134. Boron Group (Boron, Aluminium, Gallium, Indium, Thallium) 硼(Peng)族(Zu)（硼(Peng)，铝(Lv)，镓(Zuo)，铟(Zuo)，铊(Zuo)）135. Borane 硼(Peng)烷(Wan)136. Carbon Group (Carbon, Silicon, Germanium, Tin, Lead) 碳(Tan)族(Zu)（碳(Tan)，硅(Gui)，锗(Zhe)，锡(Xi)，铅(Qian)）137. Graphite, Carbon Monoxide, Carbon Dioxide 石(Shi)墨(Mo)，一(Yi)氧(Yang)化(Hua)碳(Tan)，二(Er)氧(Yang)化(Hua)碳(Tan)138. Carbonic Acid, Carbonates and Carbides 碳(Tan)酸(Suan)，碳(Tan)酸(Suan)盐(Yan)，碳(Tan)化(Hua)物(Wu)139. Occurrence and Preparation of Silicon 硅(Gui)的(De)存(Cun)在(Zai)和(He)制(Zhi)备(Bei)140. Silicic Acid，Silicates 硅(Gui)酸(Suan)，硅(Gui)酸(Suan)盐(Yan)141. Nitrogen Group (Phosphorus, Arsenic,Antimony, and Bismuth) 氮(Dan)族(Zu)（磷(Lin)，砷(Shen)，锑(Ti)，铋(Zuo)）142. Ammonia, Nitric Acid, Phosphoric Acid 氨(An)，硝(Xiao)酸(Suan)，磷(Lin)酸(Suan)143. Phosphorates, phosphorus Halides 磷(Lin)酸(Suan)盐(Yan)，卤(Lu)化(Hua)磷(Lin)144. Oxygen Group (Oxygen, Sulfur, Selenium,and Tellurium) 氧(Yang)族(Zu)元(Yuan)素(Su)（氧(Yang)，硫(Liu)，硒(Xi)，碲(Zuo)）145. Ozone, Hydrogen Peroxide 臭(Chou)氧(Yang)，过(Guo)氧(Yang)化(Hua)氢(Qing)146. Sulfides 硫(Liu)化(Hua)物(Wu)147. Halogens (Fluorine, Chlorine, Bromine, Iodine) 卤(Lu)素(Su)（氟(Fu)，氯(Lv)，溴(Zuo)，碘(Dian)）148. Halides, Chloride 卤(Lu)化(Hua)物(Wu)，氯(Lv)化(Hua)物(Wu)149. The Noble Gases 稀(Xi)有(You)气(Qi)体(Ti)150. Noble-Gas Compounds 稀(Xi)有(You)气(Qi)体(Ti)化(Hua)合(He)物(Wu)151. d-Block elements d区(Qu)元(Yuan)素(Su)152. Transition Metals 过(Guo)渡(Du)金(Jin)属(Shu)153. Potassium Dichromate 重(Zhong)铬(Ge)酸(Suan)钾(Jia)154. Potassium Permanganate 高(Gao)锰(Meng)酸(Suan)钾(Jia)155. Iron Copper Zinc Mercury 铁(Tie)，铜(Tong)，锌(Xin)，汞(Gong)156. f-Block Elements f区(Qu)元(Yuan)素(Su)157. Lanthanides 镧(Zuo)系(Xi)元(Yuan)素(Su)158. Radioactivity 放(Fang)射(She)性(Xing)159. Nuclear Chemistry 核(He)化(Hua)学(Xue)160. Nuclear Fission 核(He)裂(Lie)变(Bian)161. Nuclear Fusion 核(He)聚(Ju)变(Bian)162. analytical chemistry 分(Fen)析(Xi)化(Hua)学(Xue)163. qualitative analysis 定(Ding)性(Xing)分(Fen)析(Xi)164. quantitative analysis 定(Ding)量(Liang)分(Fen)析(Xi)165. chemical analysis 化(Hua)学(Xue)分(Fen)析(Xi)166. instrumental analysis 仪(Yi)器(Qi)分(Fen)析(Xi)167. titrimetry 滴(Di)定(Ding)分(Fen)析(Xi)168. gravimetric analysis 重(Zhong)量(Liang)分(Fen)析(Xi)法(Fa)169. regent 试(Shi)剂(Ji)170. chromatographic analysis 色(Se)谱(Pu)分(Fen)析(Xi)171. product 产(Chan)物(Wu)172. electrochemical analysis 电(Dian)化(Hua)学(Xue)分(Fen)析(Xi)173. on-line analysis 在(Zai)线(Xian)分(Fen)析(Xi)174. macro analysis 常(Chang)量(Liang)分(Fen)析(Xi)175. characteristic 表(Biao)征(Zheng)176. micro analysis 微(Wei)量(Liang)分(Fen)析(Xi)177. deformation analysis 形(Xing)态(Tai)分(Fen)析(Xi)178. semimicro analysis 半(Ban)微(Wei)量(Liang)分(Fen)析(Xi)179. systematical error 系(Xi)统(Tong)误(Wu)差(Cha)180. routine analysis 常(Chang)规(Gui)分(Fen)析(Xi)181. random error 偶(Ou)然(Ran)误(Wu)差(Cha)182. arbitration analysis 仲(Zhong)裁(Cai)分(Fen)析(Xi)183. gross error 过(Guo)失(Shi)误(Wu)差(Cha)184. normal distribution 正(Zheng)态(Tai)分(Fen)布(Bu)185. accuracy 　准(Zhun)确(Que)度(Du)186. deviation　偏(Pian)差(Cha)187. precision 　精(Jing)密(Mi)度(Du)188. relative standard deviation 相(Xiang)对(Dui)标(Biao)准(Zhun)偏(Pian)差(Cha)（RSD）189. coefficient variation 变(Bian)异(Yi)系(Xi)数(Shu)（CV）190. confidence level 置(Zhi)信(Xin)水(Shui)平(Ping)191. confidence interval 置(Zhi)信(Xin)区(Qu)间(Jian)192. significant test 显(Xian)著(Zhu)性(Xing)检(Jian)验(Yan)193. significant figure 有(You)效(Xiao)数(Shu)字(Zi)194. standard solution 标(Biao)准(Zhun)溶(Rong)液(Ye)195. titration 滴(Di)定(Ding)196. stoichiometric point 化(Hua)学(Xue)计(Ji)量(Liang)点(Dian)197. end point滴(Di)定(Ding)终(Zhong)点(Dian)198. titration error 滴(Di)定(Ding)误(Wu)差(Cha)199. primary standard 基(Ji)准(Zhun)物(Wu)质(Zhi)200. amount of substance 物(Wu)质(Zhi)的(De)量(Liang)201. standardization 标(Biao)定(Ding)202. chemical reaction 化(Hua)学(Xue)反(Fan)应(Ying)203. concentration浓(Nong)度(Du)204. chemical equilibrium 化(Hua)学(Xue)平(Ping)衡(Heng)205. titer 滴(Di)定(Ding)度(Du)206. general equation for a chemical reaction化(Hua)学(Xue)反(Fan)应(Ying)的(De)通(Tong)式(Shi)207. proton theory of acid-base 酸(Suan)碱(Jian)质(Zhi)子(Zi)理(Li)论(Lun)208. acid-base titration 酸(Suan)碱(Jian)滴(Di)定(Ding)法(Fa)209. dissociation constant 解(Jie)离(Li)常(Chang)数(Shu)210. conjugate acid-base pair 共(Gong)轭(Zuo)酸(Suan)碱(Jian)对(Dui)211. acetic acid 乙(Yi)酸(Suan)212. hydronium ion水(Shui)合(He)氢(Qing)离(Li)子(Zi)213. electrolyte电(Dian)解(Jie)质(Zhi)214. ion-product constant of water 水(Shui)的(De)离(Li)子(Zi)积(Ji)215. ionization 电(Dian)离(Li)216. proton condition 质(Zhi)子(Zi)平(Ping)衡(Heng)217. zero level零(Ling)水(Shui)准(Zhun)218. buffer solution缓(Huan)冲(Chong)溶(Rong)液(Ye)219. methyl orange 甲(Jia)基(Ji)橙(Cheng)220. acid-base indicator 酸(Suan)碱(Jian)指(Zhi)示(Shi)剂(Ji)221. phenolphthalein 酚(Fen)酞(Tai)222. coordination compound 配(Pei)位(Wei)化(Hua)合(He)物(Wu)223. center ion 中(Zhong)心(Xin)离(Li)子(Zi)224. cumulative stability constant 累(Lei)积(Ji)稳(Wen)定(Ding)常(Chang)数(Shu)225. alpha coefficient 酸(Suan)效(Xiao)应(Ying)系(Xi)数(Shu)226. overall stability constant 总(Zong)稳(Wen)定(Ding)常(Chang)数(Shu)227. ligand 配(Pei)位(Wei)体(Ti)228. ethylenediamine tetraacetic acid 乙(Yi)二(Er)胺(An)四(Si)乙(Yi)酸(Suan)229. side reaction coefficient 副(Fu)反(Fan)应(Ying)系(Xi)数(Shu)230. coordination atom 配(Pei)位(Wei)原(Yuan)子(Zi)231. coordination number 配(Pei)位(Wei)数(Shu)232. lone pair electron 孤(Gu)对(Dui)电(Dian)子(Zi)233. chelate compound 螯(Zuo)合(He)物(Wu)234. metal indicator 金(Jin)属(Shu)指(Zhi)示(Shi)剂(Ji)235. chelating agent 螯(Zuo)合(He)剂(Ji)236. masking 掩(Yan)蔽(Bi)237. demasking 解(Jie)蔽(Bi)238. electron 电(Dian)子(Zi)239. catalysis 催(Cui)化(Hua)240. oxidation氧(Yang)化(Hua)241. catalyst 催(Cui)化(Hua)剂(Ji)242. reduction 还(Huan)原(Yuan)243. catalytic reaction 催(Cui)化(Hua)反(Fan)应(Ying)244. reaction rate 反(Fan)应(Ying)速(Su)率(Lv)245. electrode potential 电(Dian)极(Ji)电(Dian)势(Shi)246. activation energy 反(Fan)应(Ying)的(De)活(Huo)化(Hua)能(Neng)247. redox couple 氧(Yang)化(Hua)还(Huan)原(Yuan)电(Dian)对(Dui)248. potassium permanganate 高(Gao)锰(Meng)酸(Suan)钾(Jia)249. iodimetry 碘(Dian)量(Liang)法(Fa)250. potassium dichromate 重(Zhong)铬(Ge)酸(Suan)钾(Jia)251. cerimetry 铈(Zuo)量(Liang)法(Fa)252. redox indicator 氧(Yang)化(Hua)还(Huan)原(Yuan)指(Zhi)示(Shi)253. oxygen consuming 耗(Hao)氧(Yang)量(Liang)（OC）254. chemical oxygen demanded 化(Hua)学(Xue)需(Xu)氧(Yang)量(Liang)(COD)255. dissolved oxygen 溶(Rong)解(Jie)氧(Yang)(DO)256. precipitation 沉(Chen)淀(Dian)反(Fan)应(Ying)257. argentimetry 银(Yin)量(Liang)法(Fa)258. heterogeneous equilibrium of ions 多(Duo)相(Xiang)离(Li)子(Zi)平(Ping)衡(Heng)259. aging 陈(Chen)化(Hua)260. postprecipitation 继(Ji)沉(Chen)淀(Dian)261. coprecipitation 共(Gong)沉(Chen)淀(Dian)262. ignition 灼(Zhuo)烧(Shao)263. fitration 过(Guo)滤(Lv)264. decantation 倾(Qing)泻(Xie)法(Fa)265. chemical factor 化(Hua)学(Xue)因(Yin)数(Shu)266. spectrophotometry 分(Fen)光(Guang)光(Guang)度(Du)法(Fa)267. colorimetry 比(Bi)色(Se)分(Fen)析(Xi)268. transmittance 透(Tou)光(Guang)率(Lv)269. absorptivity 吸(Xi)光(Guang)率(Lv)270. calibration curve 校(Xiao)正(Zheng)曲(Qu)线(Xian)271. standard curve标(Biao)准(Zhun)曲(Qu)线(Xian)272. monochromator 单(Dan)色(Se)器(Qi)273. source 　光(Guang)源(Yuan)274. wavelength dispersion 色(Se)散(San)275. absorption cell　吸(Xi)收(Shou)池(Chi)276. detector 检(Jian)测(Ce)系(Xi)统(Tong)277. bathochromic shift 红(Hong)移(Yi)278. Molar absorptivity 　摩(Mo)尔(Er)吸(Xi)光(Guang)系(Xi)数(Shu)279. hypochromic shift 紫(Zi)移(Yi)280. acetylene 乙(Yi)炔(Que)281. ethylene 乙(Yi)烯(Xi)282. acetylating agent 乙(Yi)酰(Zuo)化(Hua)剂(Ji)283. acetic acid 乙(Yi)酸(Suan)284. adiethyl ether 乙(Yi)醚(Mi)285. ethyl alcohol 乙(Yi)醇(Chun)286. acetaldehtde 乙(Yi)醛(Quan)287. β-dicarbontl compound β–二(Er)羰(Zuo)基(Ji)化(Hua)合(He)物(Wu)288. bimolecular elimination 双(Shuang)分(Fen)子(Zi)消(Xiao)除(Chu)反(Fan)应(Ying)289. bimolecular nucleophilic substitution 双(Shuang)分(Fen)子(Zi)亲(Qin)核(He)取(Qu)代(Dai)反(Fan)应(Ying)290. open chain compound 开(Kai)链(Lian)族(Zu)化(Hua)合(He)物(Wu)291. molecular orbital theory 分(Fen)子(Zi)轨(Gui)道(Dao)理(Li)论(Lun)292. chiral molecule 手(Shou)性(Xing)分(Fen)子(Zi)293. tautomerism 互(Hu)变(Bian)异(Yi)构(Gou)现(Xian)象(Xiang)294. reaction mechanism 反(Fan)应(Ying)历(Li)程(Cheng)295. chemical shift 化(Hua)学(Xue)位(Wei)移(Yi)296. Walden inversio 瓦(Wa)尔(Er)登(Deng)反(Fan)转(Zhuan)n297. Enantiomorph 对(Dui)映(Ying)体(Ti)298. addition rea ction 加(Jia)成(Cheng)反(Fan)应(Ying)299. dextro- 右(You)旋(Xuan)300. levo- 左(Zuo)旋(Xuan)301. stereochemistry 立(Li)体(Ti)化(Hua)学(Xue)302. stereo isomer 立(Li)体(Ti)异(Yi)构(Gou)体(Ti)303. Lucas reagent 卢(Lu)卡(Ka)斯(Si)试(Shi)剂(Ji)304. covalent bond 共(Gong)价(Jia)键(Jian)305. conjugated diene 共(Gong)轭(Zuo)二(Er)烯(Xi)烃(Ting)306. conjugated double bond 共(Gong)轭(Zuo)双(Shuang)键(Jian)307. conjugated system 共(Gong)轭(Zuo)体(Ti)系(Xi)308. conjugated effect 共(Gong)轭(Zuo)效(Xiao)应(Ying)309. isomer 同(Tong)分(Fen)异(Yi)构(Gou)体(Ti)310. isomerism 同(Tong)分(Fen)异(Yi)构(Gou)现(Xian)象(Xiang)311. organic chemistry 有(You)机(Ji)化(Hua)学(Xue)312. hybridization 杂(Za)化(Hua)313. hybrid orbital 杂(Za)化(Hua)轨(Gui)道(Dao)314. heterocyclic compound 杂(Za)环(Huan)化(Hua)合(He)物(Wu)315. peroxide effect 过(Guo)氧(Yang)化(Hua)物(Wu)效(Xiao)应(Ying)t316. valence bond theory 价(Jia)键(Jian)理(Li)论(Lun)317. sequence rule 次(Ci)序(Xu)规(Gui)则(Ze)318. electron-attracting grou p 吸(Xi)电(Dian)子(Zi)基(Ji)319. Huckel rule 休(Xiu)克(Ke)尔(Er)规(Gui)则(Ze)320. Hinsberg test 兴(Xing)斯(Si)堡(Bao)试(Shi)验(Yan)321. infrared spectrum 红(Hong)外(Wai)光(Guang)谱(Pu)322. Michael reacton 麦(Mai)克(Ke)尔(Er)反(Fan)应(Ying)323. halogenated hydrocarbon 卤(Lu)代(Dai)烃(Ting)324. haloform reaction 卤(Lu)仿(Fang)反(Fan)应(Ying)325. systematic nomenclatur 系(Xi)统(Tong)命(Ming)名(Ming)法(Fa)e326. Newman projection 纽(Niu)曼(Man)投(Tou)影(Ying)式(Shi)327. aromatic compound 芳(Fang)香(Xiang)族(Zu)化(Hua)合(He)物(Wu)328. aromatic character 芳(Fang)香(Xiang)性(Xing)r329. Claisen condensation reaction克(Ke)莱(Lai)森(Sen)酯(Zuo)缩(Suo)合(He)反(Fan)应(Ying)330. Claisen rearrangement 克(Ke)莱(Lai)森(Sen)重(Zhong)排(Pai)331. Diels-Alder reation 狄(Di)尔(Er)斯(Si)-阿(A)尔(Er)得(De)反(Fan)应(Ying)332. Clemmensen reduction 克(Ke)莱(Lai)门(Men)森(Sen)还(Huan)原(Yuan)333. Cannizzaro reaction 坎(Kan)尼(Ni)扎(Zha)罗(Luo)反(Fan)应(Ying)334. positional isomers 位(Wei)置(Zhi)异(Yi)构(Gou)体(Ti)335. unimolecular elimination reaction 单(Dan)分(Fen)子(Zi)消(Xiao)除(Chu)反(Fan)应(Ying)336. unimolecular nucleophilic substitution 单(Dan)分(Fen)子(Zi)亲(Qin)核(He)取(Qu)代(Dai)反(Fan)应(Ying)337. benzene 苯(Ben)338. functional grou 官(Guan)能(Neng)团(Tuan)p339. configuration 构(Gou)型(Xing)340. conformation 构(Gou)象(Xiang)341. confomational isome 构(Gou)象(Xiang)异(Yi)构(Gou)体(Ti)342. electrophilic addition 亲(Qin)电(Dian)加(Jia)成(Cheng)343. electrophilic reagent 亲(Qin)电(Dian)试(Shi)剂(Ji)344. nucleophilic addition 亲(Qin)核(He)加(Jia)成(Cheng)345. nucleophilic reagent 亲(Qin)核(He)试(Shi)剂(Ji)346. nucleophilic substitution reaction 亲(Qin)核(He)取(Qu)代(Dai)反(Fan)应(Ying)347. active intermediate 活(Huo)性(Xing)中(Zhong)间(Jian)体(Ti)348. Saytzeff rule 查(Cha)依(Yi)采(Cai)夫(Fu)规(Gui)则(Ze)349. cis-trans isomerism 顺(Shun)反(Fan)异(Yi)构(Gou)350. inductive effect 诱(You)导(Dao)效(Xiao)应(Ying)351. Fehling’s reagent 费(Fei)林(Lin)试(Shi)剂(Ji)352. phase transfer catalysis 相(Xiang)转(Zhuan)移(Yi)催(Cui)化(Hua)作(Zuo)用(Yong)353. aliphatic compound 脂(Zhi)肪(Fang)族(Zu)化(Hua)合(He)物(Wu)354. elimination reaction 消(Xiao)除(Chu)反(Fan)应(Ying)355. Grignard reagent 格(Ge)利(Li)雅(Ya)试(Shi)剂(Ji)356. nuclear magnetic resonance 核(He)磁(Ci)共(Gong)振(Zhen)357. alkene 烯(Xi)烃(Ting)358. allyl cation 烯(Xi)丙(Bing)基(Ji)正(Zheng)离(Li)子(Zi)359. leaving group 离(Li)去(Qu)基(Ji)团(Tuan)360. optical activity 旋(Xuan)光(Guang)性(Xing)361. boat confomation 船(Chuan)型(Xing)构(Gou)象(Xiang)362. silver mirror reaction 银(Yin)镜(Jing)反(Fan)应(Ying)363. Fischer projection 菲(Fei)舍(She)尔(Er)投(Tou)影(Ying)式(Shi)364. Kekule structure 凯(Kai)库(Ku)勒(Le)结(Jie)构(Gou)式(Shi)365. Friedel-Crafts reaction 傅(Fu)列(Lie)德(De)尔(Er)-克(Ke)拉(La)夫(Fu)茨(Ci)反(Fan)应(Ying)366. Ketone 酮(Tong)367. carboxylic acid 羧(Zuo)酸(Suan)368. carboxylic acid derivative 羧(Zuo)酸(Suan)衍(Yan)生(Sheng)物(Wu)369. hydroboration 硼(Peng)氢(Qing)化(Hua)反(Fan)应(Ying)370. bond oength 键(Jian)长(Chang)371. bond energy 键(Jian)能(Neng)372. bond angle 键(Jian)角(Jiao)373. carbohydrate 碳(Tan)水(Shui)化(Hua)合(He)物(Wu)374. carbocation 碳(Tan)正(Zheng)离(Li)子(Zi)375. carbanion 碳(Tan)负(Fu)离(Li)子(Zi)376. alcohol 醇(Chun)377. Gofmann rule 霍(Huo)夫(Fu)曼(Man)规(Gui)则(Ze)378. Aldehyde 醛(Quan)379. Ether 醚(Mi)380. Polymer 聚(Ju)合(He)物(Wu)

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一(驰颈)般(叠补苍)而(贰谤)言(驰补苍)，游(驰辞耻)资(窜颈)往(奥补苍驳)往(奥补苍驳)喜(齿颈)欢(贬耻补苍)博(叠辞)弈(窜耻辞)热(搁别)门(惭别苍)题(罢颈)材(颁补颈)股(骋耻)，而(贰谤)中(窜丑辞苍驳)国(骋耻辞)联(尝颈补苍)通(罢辞苍驳)恰(蚕颈补)好(贬补辞)与(驰耻)最(窜耻颈)近(闯颈苍)市(厂丑颈)场(颁丑补苍驳)热(搁别)炒(颁丑补辞)的(顿别)数(厂丑耻)字(窜颈)经(闯颈苍驳)济(闯颈)题(罢颈)材(颁补颈)密(惭颈)切(蚕颈别)相(齿颈补苍驳)关(骋耻补苍)。公(骋辞苍驳)司(厂颈)是(厂丑颈)国(骋耻辞)内(狈别颈)叁(厂补苍)大(顿补)运(驰耻苍)营(驰颈苍驳)商(厂丑补苍驳)之(窜丑颈)一(驰颈)，拥(驰辞苍驳)有(驰辞耻)覆(贵耻)盖(骋补颈)中(窜丑辞苍驳)国(骋耻辞)、通(罢辞苍驳)达(顿补)世(厂丑颈)界(闯颈别)的(顿别)现(齿颈补苍)代(顿补颈)通(罢辞苍驳)信(齿颈苍)网(奥补苍驳)络(尝耻辞)，“十(厂丑颈)四(厂颈)五(奥耻)”期(蚕颈)间(闯颈补苍)公(骋辞苍驳)司(厂颈)发(贵补)展(窜丑补苍)的(顿别)定(顿颈苍驳)位(奥别颈)明(惭颈苍驳)确(蚕耻别)为(奥别颈)“数(厂丑耻)字(窜颈)信(齿颈苍)息(齿颈)基(闯颈)础(颁丑耻)设(厂丑别)施(厂丑颈)运(驰耻苍)营(驰颈苍驳)服(贵耻)务(奥耻)国(骋耻辞)家(闯颈补)队(顿耻颈)、网(奥补苍驳)络(尝耻辞)强(蚕颈补苍驳)国(骋耻辞)数(厂丑耻)字(窜颈)中(窜丑辞苍驳)国(骋耻辞)智(窜丑颈)慧(贬耻颈)社(厂丑别)会(贬耻颈)建(闯颈补苍)设(厂丑别)主(窜丑耻)力(尝颈)军(闯耻苍)、数(厂丑耻)字(窜颈)技(闯颈)术(厂丑耻)融(搁辞苍驳)合(贬别)创(颁丑耻补苍驳)新(齿颈苍)排(笔补颈)头(罢辞耻)兵(叠颈苍驳)”。

初次来到025军校排练，张变兰也对那群英姿飒爽的军校学生充满了好奇，但因为太过害羞，整个排练过程，她都不好意思转头瞧瞧身后的兵哥哥。如果小瓦格纳在2024-25赛季被选上最佳阵容，那么合同的总金额将飙升至5年2.69亿美元，这无疑是对小瓦格纳的一种激励，也是魔术队对他未来表现的一种期许。宅男必备的互动触摸游戏有哪些-宅男必玩的触摸身体...

没有电视墙的客厅显着也很温馨大气一排木质的收纳柜摆满了他们的东西去客厅化的设计也很超前电视机对于现在的人来说意义真的不那么大了还不如增加点实用性来的更好一些既可以增加储物性还能起到装饰的作用一举两得

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