最初,MFSII是一种点状的三层的漂浮结构。它占地220平方米,超过三层以上的部分减少了建筑物顶端的规模。
Like the original, MFS II is a pointed three-storey floating structure. It spans 220 square metres, over three floors that decrease in scale towards the building's apex.
图1:CT扫描显示了一个右侧顶叶囊性结构伴有中心点状高密度影代表一个头节(箭头)。
Figure 1: CT scan demonstrates a right-sided parietal lobe intraaxial cystic structure with a central "dot" representing a scolex (arrow).
丙烯酸侧灯,点状灯和线灯都来源于这个皇室蓝的结构。
The acrylic pendant lights, spots and tracks are all suspended from this royal blue structure.
支化结构使分散相区域从球状向棒状形式的相变点提前,通过热力学模型分析,对这一现象进行了理论解释。
And the branched structure caused an early transition of the separated domain from the sphere-like to the rod-like, which was interpreted theoretically through a thermodynamic model.
提出了一种新颖的直接体积CT扫描结构,即采用面状扫描与点状探测的倒置扫描结构。
This paper proposed a novel scanning structure of direct volume ct, which ADAPTS planar scanning and point detecting, called reverse geometry volume ct.
随着外加脉冲偏压的增大、脉冲时间的增加,加工得到的点状纳米结构的高度和半径会随之增加。
It is concluded that the height and the radius of nanostructures increase with the raising of the applied voltage and the pulse time.
规划方案的空间结构特色概括为:面状空间、散点空间、流动空间;并配合带状轴和点串联各个空间。
The space program structure characteristics can be summarized as follows: the planar space, space, space scatter plot, and with every point series ribbon axis and space.
在横向拉应力下,横向条状畴形成并增长。应力增大,横向条状畴碎化形成点状畴结构。
A bar type traverse domain generates and grows up under the effect of the transverse drawing stress and it is broken into a dotted magnetic domain structure following the increase of stress.
树枝状大分子是一类具有规则的、高度支化的三维结构的高分子,含硅的树枝状大分子是以硅原子作为两代之间的支化点的树枝状大分子。
Dendrimers are macromolecules with a regular and highly branched three-dimensional architecture. Silicon-based dendrimers are dendrimers with Si-atoms as branching point between two generations.
一旦到达损伤部位,这些细胞聚集形成“豆荚状”并启动肺泡相关基因的表达,而这些具有小的空心结构的肺泡正是肺部进行气体交换的位点。
That's despite the fact that a gene expression profile of those cells shows little difference between them and stem cells with alternate fates isolated from the upper airways.
一旦到达损伤部位,这些细胞聚集形成“豆荚状”并启动肺泡相关基因的表达,而这些具有小的空心结构的肺泡正是肺部进行气体交换的位点。
That's despite the fact that a gene expression profile of those cells shows little difference between them and stem cells with alternate fates isolated from the upper airways.
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