英语人>词典>汉英 : 大球壳 的英文翻译,例句
大球壳 的英文翻译、例句

大球壳

基本解释 (translations)
megalosphere

更多网络例句与大球壳相关的网络例句 [注:此内容来源于网络,仅供参考]

The 1s electron cloud in hydrogen atom has the largest probability density distribution around a spherical shell with Bohr radius a 0. The author thinks the probability density distribution and electron cloud belong in fact,to statistic regularity, and imply a macro-time scale is used, therefore in hydrogen molecule the product of energy and time is far larger than Planck Constant.

氢原子中 1s电子的电子云呈球形,电子的最大几率密度分布出现在玻尔半径a0 的球壳内,认为几率密度分布及电子云属统计规律,意味着已经使用了宏观时标,这样就使氢分子体系中能量和时间的作用量远大于普郎克常数;根据电子云的交叠,用经典力学计算了基态氢分子的结构常数,获得键长、键能及力常数的表达式分别为Re=2a0 ,De=ze/4 2a0 ,k=ze/2 2a30 ,采用原子单位 a 。u 。

The results showed, Stropharica rugoso-annuata planted in chaft at 10 kg/m^2 had the best biological efficiency, input and output ratio and quality characters.

结果表明,谷壳作为栽培料在10 kg/平方公尺时种植出的大球盖菇生物学效率最高,投入产出比最高,品质最好。

In the brain of adult rat, the positive immunohistochemical product of lSL-l (ISL-l-positive) was mainly located in the neuronal nucleus and found in discrete regions except to brain cortex, such as the Purkinje cell layer and the granular cell layer of cerebellum, the granular cell layer and the pyramidal cell layer of hippocampus, the mitral cell layer, the internal and external plexiform layer, the granular cell layer and the granular cell layer of olfactory bulb and so on, and several nuclei of the hypothalamus, midbrain and pons, such as claustrum, anterior olfactory nucleus, accumbens nucleus, caudate-ptamen, pallidum, substantia nigra, striatum, islands of Callaje, mammillary nucleus, anterior pretactal nucleus, habenular nucleus, amygdaloid nucleus, cuneate nucleus, rubral nucleus, gigantocellular reticular nucleus and so on.

在正常成年大鼠脑中,同源框基因islet-1表达产物(ISL-1)免疫组织化学阳性物质广泛分布于除大脑皮层外的神经细胞的细胞核内,ISL-1阳性神经元密集分布于小脑Purkinje细胞层和颗粒细胞层、海马的颗粒细胞层和锥体细胞层、嗅球的内丛层、外丛层、颗粒细胞层及僧帽细胞层等,另外在丘脑、中脑和桥脑的一些重要神经元核团均有分布,如,屏状核、前嗅核、伏核、尾壳核、苍白球、黑质、纹状体、Calleja岛、乳头体核、前顶盖前核、缰核、杏仁核、楔束核、红核网状巨细胞核等。

In the single crystal of C60 with a FCC structure,positron mainly appears outside the C60 molecule.The main annihilation space is the interspace between molecules.The calculated positron bulk lifetime in C60 is 352ps, which agrees with experiment value of 356ps in literature.In carbon nanotube bundles with different dimeters,as the diameter of carbon nanotubes increases,the main space where positron appears changes from the interspace of carbon tubes to the space inside carbon tubes,the radio between positron annihilation with valence eletrons and core eletrons becomes larger,the positron bulk lifetime in carbon nanotube increase rapidly first and come to be a constant at the end.The calculated positron lifetime of carbon nanotube with a dimeter of 0.8~1.6ns is 332~470ps,which agrees with the experiment value of 394ps.Positron annihilation has been studied in widly used compound semiconductors.

计算结果表明:在片层结构的石墨晶体中,正电子主要在石墨层间的空隙中湮没,计算出的石墨中的正电子寿命为208 pS,与文献中的实验结果215 ps符合很好;在金刚石单晶中,正电子主要在碳原子之间的空隙中存在并发生湮没,计算出的金刚石中的正电子寿命为115 ps,文献中的实验结果110 ps左右符合;在面心立方结构的C60晶体中,正电子主要在C60分子球壳内外侧及分子之间存在,C60球形分子中心正电子分布很少,正电子的湮没区域集中在C60分子之间的空隙区域,计算出的C60中的正电子寿命为352 ps与文献中的实验结果356ps相符合;对于不同管径碳米管束中的正电子分布,随着碳纳米管直径的增加,碳纳米管束中的正电子由主要在碳纳米管管间的区域出现转变为主要在碳纳米管管内中心的区域出现:碳纳米管束中的正电子与碳原子的价电子的湮没概率变得越来越大,与核心电子的湮没概率变得越来越小;碳纳米管束中正电子的湮没寿命先迅速增大,而后趋于一定值。

In 3D geodynamics numerical simulation research, it is often required to mesh the whole Earth or part of the spherical shell, and the size of mesh is much more important to our research.

在研究大尺度的三维地球动力学问题的数值模拟过程中,往往需要对整个球体或部分球壳生成计算网格,而且网格单元的尺寸对所研究的问题尤为重要。

(1) Verification of the expressions of Cfos in caudate nucleus, putamen, globus pallidus, hippocamp, nuclei ventrolaterales thalami, parv ocellular reticular nucleus, dorso lateral magnocellular nucleus after rats subarachnoid hemorrhage are variation with different phases.(2) There are certain relationships between subarachnoid hemorrhage and different phases.

(1)大鼠蛛网膜下腔出血后不同时相Cfos在脑膜、脑皮质区及尾壳核、苍白球、海马、背侧丘脑腹后外侧核、小细胞网状核、背侧旁巨细胞核中都有表达且表达量随时相改变;(2)大鼠蛛网膜下腔出血后相关症状与不同时相Cfos在脑中表达之间存在着相关联系,具有规律性。

Methods:All the 40 Winstar rats were divided into four groups:group A:the rats were fed with normal diet,group B:the rats were fed with only high|cholesterol diet(no vitamin D3),group C:the rats were treated with one intramuscularly injection of vitamin D3(300 000 U/kg) and were denudated of endothelium,followed by high|cholesterol diet,group D:the rats were treated with 5% chitosan added into the diet besides treatment as group C.Ninety days later,the formation of atherosclerosis plaques and the activities of nitric oxide synthase in aortas in the four group rats were investigated.

40只Wistar大鼠均分为:A组;B组:饲以高脂饲料(不含维生素D3);C组:一次性给予大鼠维生素D3(30万U/kg体重)肌肉注射,以球囊损伤主动脉内皮和饲以含维生素D3(1.25×106U/kg)的高脂饲料;D组在C组的基础上饲料中加入5%壳聚糖。90 d后检测主动脉动脉粥样硬化斑块形成及NOS的活性。

With the use of elastic mechanics, the incremental equations of an everted Varga spherical shell are deduced.

在大模数情形下,对于A-B=O(1),得到了球壳内外径临界比的简单渐近表达式。

Results: In the 13 cases, the CT diagnosis show that five cases of low-density lesions of Bilateral hepatolenticular, five cases of globus pallidus, one case of Bilateral hepatolenticular with corpus callosum, one cases of External capsule putamen, one case of Putamen with the caudate nucleus, three cases of low-density of Bilateral lobi frontalis and lobi parietalis, one case of unilateral putamen hemorrhage, three cases of cerebral atrophy.

目的 探讨双侧基底节区对称性低密度病变的CT诊断价值。方法回顾性分析肝豆状核变性5例、中毒性病变5例、Wernicke脑病2例、Huntington氏大舞蹈病1例的CT平扫表现及临床意义。结果 13例中,CT示双侧豆状核低密度5例、苍白球5例、双侧豆状核伴胼胝体1例、壳核伴外囊1例、壳核伴尾状核1例;双额顶叶低密度3例、单侧壳核出血1例、大脑萎缩3例。

The marginal division was a flat fan-shaped structure with a volume of (0.48±0.02) mm3, a maximum rostral-caudate axis of 1.6 mm, a maximum dorsal-ventral axis of 2.158 mm, and a widest axis (the diameter at lateral-medial coronal brain section) of 0.17 mm. The marginal division also moved progressively externally from the rostral section to the caudate section, but its scope was larger than that of others. The whole marginal division changed evenly from the rostral section to the caudate one. Its flat structure widened progressively and its dorsal-ventral diameter narrowed gradually and became plate-shaped.

边缘区呈现一个片状扇形结构,体积为(0.48±0.02) mm3,最大嘴尾径为1.6 mm,最大背腹径为2.158 mm,最大内外径为0.17 mm;同尾壳核和苍白球一样从嘴侧到尾侧随着脑平面的增宽边缘区亦逐渐向外侧移位,其移位的幅度亦明显大于脑平面增宽的幅度;整个边缘区从嘴侧到尾侧呈均匀变化,其片状逐渐变宽,长度逐渐变小,从而形成一个盘状结构。

更多网络解释与大球壳相关的网络解释 [注:此内容来源于网络,仅供参考]

globigerina:球房虫

绝大多数为海洋生活,如球房虫(Globigerina)等. 有人估计有孔虫约有20000种之多. 大多数有孔虫在海洋中底栖或漂浮生活,它们的壳及尸体在海底形成有孔虫软泥,覆盖了世界海洋的1/3海底,深度约在4000m之内. 超过此限度由于水的更大压力及更高浓度的CO2,

megalosphere:大球壳

megalosaurus 巨龙 | megalosphere 大球壳 | megalospleniasplenomegaly 巨脾

megalosplenia:巨脾 巨脾

megalosphere 大球壳 | megalosplenia 巨脾 巨脾 | megalosyndactyly 巨并指 巨并指