英语人>词典>汉英 : 水分子 的英文翻译,例句
水分子 的英文翻译、例句

水分子

基本解释 (translations)
hydrone

更多网络例句与水分子相关的网络例句 [注:此内容来源于网络,仅供参考]

The process of the removal of a apolar molecule or the hydrophobic moieties from water can be considered as two steps: One is the destructuring of the water in the vicinity of the surface of the solute molecules, and the other is the cavity holding the hydrocarbon molecule collapses.

非极性分子或极性分子的疏水部分从水中逸出的过程可视为由两部分组成:一是非极性分子周围的水分子的有序排列结构被破坏;二是水中容纳非极性分子的空穴倒坍。

As the Brownian movement of water quickened, the solvency must enhanced as consequence, therefore, the chance of the small water molecular clusters entering the cell wall would be increased and affect the biomacromolecule.

如果我们将微观水分子簇宏观化,可以得出小水分子簇甚至单个水分子簇与周围的物质接触面积增大,那么水分子与周围物质之间的相互作用必然加快。

Structures of Na~+-AD ion-complexes with 1 or 2 H2O molecules were obtained. It was found that H2O can bond with Na~+ in the structure of Na~+-AD to form Na-O van der Waals bond. H2O molecule can also bond with N or O atoms in AD moiety to form H-bonds as N-H…Ow or O…Hw-Ow. The former process takes place more easily. The most stable structures of Na~+-AD ion-complexes with 1 and 2 H2O molecules are W-C7AB and 2W-C7AB, respectively.αB conformer of Na~+-AD can not exist in the presence of 2 H2O molecules.

研究发现水分子可以结合在Na~+-AD络合离子中的Na~+附近形成Na-OW范德华键,也可以与Na~+-AD络合离子骨架结构中电负性较强的N或O原子结合形成N-H…OW或O…HW-OW氢键,相对而言,水分子更容易结合在Na~+-AD络合离子中的Na~+位置,Na~+-AD最稳定的带1个或2个水分子的结构分别为W-C7AB和2W-C7AB,Na~+-AD络合离子的αB构象在2分子水存在的情况下完全消失。

Far infrared magnetized: There are far infrared magnets in the tin, which may produce a strong magnetic field. All this will form a magnetic line of force, which makes all the water molecules under the magnetic force. The water molecules will be in a group form, and become more active. It will be easier for human body to absorb so as to speed up blood circulation.

远红外磁化:奇石罐中设置了远红外磁石,能产生高强度的磁场,形成全方位的磁力线,使整个水分子处在磁力线的切割之中,从而使水分子形成并保持小分子团状态,增强水分子的活性,更利于人体的吸收,促进血液循环。

There are two independent molecules of ZnL or Co(IIL and two water molecules in one asymmetric unit of complex 1(or 2), the crystal structure of CuClL1·2H2O consists of one molecule of CuClL1 and two water solvate molecules in the asymmetric unit, while the ZnL·CH3OH (4) comprises of one molecule of ZnL and a methanol molecule in per unit.

在这四个金属配合物中,配合物(1)和配合物(2)的每个不对称单元中有两个独立的ML 分子和两个水分子,配合物(3)的每个不对称单元中有一个CuClL1分子和两个水分子,而配合物(4)的每个不对称单元中只有一个ZnL 分子和一个甲醇分子。

There are two independent molecules of ZnL or Co(IIL and two water moleculesin one asymmetric unit of complex 1(or 2), the crystal structure of CuClL_1·2H_2O consistsof one molecule of CuClL_1 and two water solvate molecules in the asymmetric unit,while the ZnL·CH3OH (4) comprises of one molecule of ZnL and a methanolmolecule in per unit.

在这四个金属配合物中,配合物(1)和配合物(2)的每个不对称单元中有两个独立的MLZn(IIL、CoL分子和两个水分子,配合物(3)的每个不对称单元中有一个CuClL_1分子和两个水分子,而配合物(4)的每个不对称单元中只有一个ZnL分子和一个甲醇分子。

There are great differences between the nonaqueous acetonitrile system and aqueous one on the frequency of the vibration of ν O-H, whose value is higher in nonaqueous system.

处于非水环境下的水分子的VO-H与水系相比存在明显的差别。水分子间的氢键被不同程度地破坏导致几种模式下的水分子VOH均要高于水体系。

Korea Shab produce with human itself the same frequency far infrared, a body of water elements resonance for water elements fierce campaign superfluous fat, heavy metals trapped in the water elements, enabling water elements enable hazardous substances and fats released and discharged in vitro, because Korea homes is "dry cleaning" in Korea homes inside to listen to music, drink coffee, read :: without that kind of steamed into massage room temperature dejected.

丽舍能产生与人体本身相同频率的远红外线,引起体内水分子共振,使水分子剧烈运动,多余的脂肪、重金属被夹在水分子之间,激活的水分子能够使有害物质和脂肪被释放并排出体外,由于丽舍是&干洗&,在丽舍里面,可以听音乐、喝咖啡、看书……而没有桑拿房那种蒸笼似的高温憋闷。

First, the significant of co-factor InsP6 and center water in the mechanism of auxins are explored by docking; second, the experiments that compared with the docking rusults of two situations involving fully rigid and selective flexible of active residue of the receptor TIR1 illuminate that selective flexibility docking by AutoDock4 reports more rational results, so that, AutoDock4 dockings are implemented with TIR1-Auxins; third, AutoDock4 docking by TIR1-Auxins-Aux/IAA illuminates that auxin as a molecular glue enhances the interaction between TIR1 receptor and Aux/IAA substrate by the weak interactions, such as hydrogen bond and hydrophobic interaction, furthermore, the weak interactions between receptor protein and ligands greatly influence on auxin activity of auxin ligands.

首先, 通过分子对接计算研究辅酶InsP6以及中心水分子在生长素反应中的重要作用;其次,比较受体大分子完全刚性以及活性残基部分柔性的两种情况下的分子对接结果,说明AutoDock4实现了受体分子活性残基的部分柔性而使对接结果更加合理,进而使用AutoDock4方法对TIR1-Auxins体系进行对接计算;最后,对TIR1-Auxins-Aux/IAA体系进行分子对接计算,结果表明,生长素配体分子作为&分子胶水&直接与受体大分子TIR1以及底物多肽Aux/IAA形成强的弱相互作用,如氢键作用、疏水相互作用,促进了受体TIR1与Aux/IAA底物之间的结合,进而说明氢键作用和疏水相互作用等弱相互作用对于生长素分子的活性具有很大的影响。

The emulsion quartz stone material protective agent's solute has certain active multi-compositions and so on of functionality siloxanes and fluorine silicon hydride, this kind groups with the active ingredient carry alcoholysis reaction the ion condition water on quartz stone material surface, thus causes the siloxanes and the fluorine siloxanes has chemistry keying connection with the quartz stone surface, from outside to inside of the quartz stone surface and stone inside pore surface forms a kind of complex network structure, this kind of network structure is extremely dense, it may filter polar and carbon dioxide, slows down the speed that water molecules go in and out the quartz stone pore, so the quartz stone will not be soaked by the water molecules, meanwhile to be a barrier to stop alkaline compounds and salt to infiltrate from an interface to another, also can have the very good physical enhancement effect.

乳液型石材防护剂的溶质是具有一定活性的多官能度的硅氧烷和氟硅烷等组成,这种带有活性成份的基团与石材表层离子态水进行醇解反应,从而使硅氧烷和氟硅氧烷与石材表面进行化学键连接,由外向内在石材表面和石材内部毛的表层形成一种结构复杂的网状结构,此种网状结构极其密实,它可将极性水分子和二氧化碳进行过滤,减缓水分子进出石材毛孔的速度,不会被水分子浸湿,同时还有阻隔石材不同界面的碱性化合物和盐份向另外一个界面渗透,同时还能起到很好的物理增强效果。

更多网络解释与水分子相关的网络解释 [注:此内容来源于网络,仅供参考]

atomic theory:原子论

"原子论"(atomic theory)这一名称看来证明了这种对立,但是,仅仅对一名肤浅的观察者来说是这样. 让我们来举一个我们能够找到的最简单的例子:通过原子论,水被解释成是两种元素即氢和氧的化合物,以此方式组成水的分子,每一个水分子由三个原子构成,

cage structure:笼形结构[非极性分子周围的水分子所形成的有序结构]

cage effect 笼效应 | cage structure 笼形结构[非极性分子周围的水分子所形成的有序结构] | calbindin 钙结合蛋白

chemical bond:化學鍵 化学键

化学键 化学键 化学键(chemical bond)是指分子或晶体内相邻原子(或离子)间强烈的相互作用. 化学键的分类 在水分子H2O中2个氢原子和1个氧原子通过化学键结合成水分子. 化学

hydrate:水化物

天然气水化物(hydrate)是轻的碳氢化合物和水所形成的疏松结晶化合物,是一种天然气中的小分子与水分子形成的类冰状固态化合物,是气体分子与水分子非化学计量的包藏络合物,即是水分子与气体分子以物理结合体所形成的一种固体.

hydration:水合作用

Fig7-a显示在12.5小时后的水合作用(hydration)所增加水份,在这段时间除了Trehalulose糖外没有一种糖有明显变动. 它吸收12%水份,相当于每一个Trehalulose糖分子吸收二个水分子. 当续曝露在标准实验室之后12小时,

hydrodynamic:水动力学

高效液相色谱 (HPLC)也叫凝胶渗漉(permeation)或滤过,分离基于化合物分子大小或水动力学(hydrodynamic)容积. 比多孔柱填料孔径大得多的分子最先洗脱,小分子进入孔隙洗脱晚,其余的洗脱速率取决于其分子的相对大小. C.

hydrol:二聚水分子

hydrokine-tic-typehydraulictransmission流动动力式液压传动 | hydrol二聚水分子 | hydrolabil对水不稳定

Hydrone:钠铅合金;水分子

hydronautics 海洋工程学 | hydrone 钠铅合金;水分子 | hydronepheline 水霞石

Hydrone:水分子

Hydrone海德隆铅钠合金 | hydrone水分子 | hydronetheory缔合水理论

trihydrol:三水分子

trihydrate /三水合物/ | trihydrol /三水分子/ | trihydroxide /三羟化物/