1.KREEP rocks with high contents of K, REE and P were first recognized in Apollo 12 samples, and confirmed later that there were KREEP rock fragments in all of Apollo samples particularly in Apollo-12 and 14 samples.
克里普岩(KREEP)最早发现于Apollo-12样品,后来在所有返月样品中都发现3克里普岩碎片,尤其以Apollo-12和Apollo-14着陆点样品中最多,因其富含元素K,REE和P而被称之为KREEP.
2.Methods:The Analysis was carried out as on Alltech Apollo C_(18)(250 nm×4.6 mm,5 μm) column eluted with acetonitrile and 0.1% phosphoric acid in a gradient elution.
方法:以梓醇、芍药苷、阿魏酸、川芎嗪为对照品,色谱柱:Alltech Apollo C18色谱柱(250 mm×4.6 mm,5μm); 流动相:乙腈-0.1%磷酸溶液(梯度洗脱);
3.With the above method, flows in transitional region around cylinder, sphere double cone and Apollo capsule are simulated. The aerodynamic and flow characteristics are analyzed.
最后,采用本文发展的方法,对绕圆柱、球双锥和Apollo飞船的过渡区域流动进行了数值模拟,并对其气动特性、流场特征和流动现象进行了分析。
4.The algorithm has been implemented on the UV68 microcomputer graphic system and Apollo DN3000 CAD workstation. Its complexity is proportional to with the number of edges of object.
本算法已在IJV68微机图形系统 和 Apollo DN3000 CAD工作站上实现,其算法复杂性正比于形体的边数。
5.NUMERICAL SIMULATION FOR HYPERSONIC FLOW OF NONEQUILIBRIUM GASES AROUND THE APOLLO COMMAND MODULE
绕Apollo飞船的高超声速化学非平衡流动的数值模拟
6.Methods: An Alltech Company Apollo Phenyl column(150mm × 4. 6mm, 5μm) with a mobile phase composed of 0.05mol·L-1 phosphate buffer solution (pH 3.0)-acetonitrile (90:10)was used.
方法:采用Alltech公司Apollo Phenyl色谱柱(150mm×4.6mm,5μm),以0.05mol·mL-1磷酸盐缓冲液(pH 3.0)-乙腈(90:10)为流动相,流速1.0mL·min-1,紫外检测波长284nm。
7.All the dynamics calculation and digital simulation are implemented in C computer language on the APOLLO CAD workstation.
本文的动力学计算和数字仿真均在APOLLO CAD工作站上用C语言实现。
8.And tiny tectonic motions of the ground beneath the APOLLO observatory, typically a few centimeters per year, could skew the long-term results.
在一般情况下,APOLLO天文台地下的微小地壳运动是每年数厘米,但日积月累也会造成倾斜。
9.Development of Small Scale CAD Tool Package Under Apollo System
在APOLLO系统下的小型CAD工具包的开发
10.iii. Physical level design. After a brief description of ASIC design flow adopted by PCI target secure chip, the thesis make great emphasis on various methods and skills used in physical design and verification with Apollo II from Synopsys.
ⅲ.物理级设计:在对PCI安全芯片所采用的的ASIC设计流程简单介绍后,文章重点论述了基于Apollo Ⅱ的物理设计和验证方法和技巧。
