男婴对立方体的大小和差异完全没有反应。
Baby boys do not react at all to the difference and the size of the cube.
立方体的每一面都有正反两面。
它是有效地,一个立方体的车轮。
里面有一块立方体的水晶!
一个立方体的每个数据点或单元是它的维成员的笛卡尔乘积。
Each data point or cell of a cube is the Cartesian product of members of its dimensions.
这里的光线均为白色,就在摄像机前面,朝向立方体的三个面。
In each case, the light is white, directly in front of the camera, and faces three sides of the cube.
通过这样的方式,也就隐式地将立方体的外部定义为正面,而将内部作为背面。
This way, I implicitly defined the outside of the cube as the front face and the inside as the back face.
第2章介绍了数据仓库技术的概念并给出了数据立方体的理论基础。
Chapter 2 of data warehouse technology and the concept of a data cube is the theoretical foundation.
有效的实现数据立方体的计算是提高数据仓库查询效率的有力方法。
Efficiently realizing the data cubes computing is a powerful tool to increase the query efficiency of the data warehouse.
setup函数创建显示窗口,并初始化了立方体的开始位置(起点)。
The setup function creates the display window and initializes the starting position of the box (the origin).
接下来,指定时间变量,您就能够计算显示窗口中立方体的位置及其三维尺寸。
Next, given your time variable, you calculate the position of the box within the display window along the three dimensions.
图3以平面布局展示了立方体的前五个顶点,还包括(R,G,b)格式的颜色信息。
Figure 3 shows the cube's first five vertices, laid out flat and including color information in (r, g, b) format.
我在这里使用了8个顶点(立方体的顶点)并使立方体的中心与坐标系的原点相重合。
I've used eight vertices (the cube's corner points) and placed the cube's center at the coordinate system's origin.
由于我将立方体的中心点放在坐标系原点位置处,因此立方体的各边长应为 2 个单位。
Remember that I placed the cube's center at the coordinate system's origin; therefore, the cube's edges will be two units long.
一开始将当前的矩阵集保存到堆栈中,然后调用translate修改您的立方体的位移。
Begin by pushing the current set of matrices onto the stack, then call translate to change the displacement for your box.
一个四模组机器人在2.5分钟内即可完成对从“供给区”选取出的立方体的重新组合,实现一次复制。
The four-module robot was able to construct a replica in 2.5 minutes by lifting and assembling cubes from the feeding locations, said Lipson.
这里还增加了一个更改纹理映射到立方体的方式(加强或重复)的选项以及一个更改混色的选项。
I also added options to change the way the texture maps on the cube (clamped or repeated) and an option to change the blending color.
立方体的透明外层作为一个垂直的冷却管道系统,在夏季能为建筑降温,同时在春季和秋季也能促进自然通风。
The transparent exterior layer of the cube operates as a vertical cool-tube system that cools the building during the summer while enabling natural ventilation during spring and autumn.
地面是一个静止的立方体,这是Box2D已知的,因为这个立方体的质量为零(默认),因此不会与其他物体相撞。
The ground is a box that is static, which Box2D knows, because the box has zero mass (by default) and therefore doesn't collide with other objects.
一旦平面能够准确匹配,我们就可以开始复制、缩放和移动不同的拷贝(刚才所建的零高度立方体的拷贝——译者注)。
Once we have that plane into place, we can duplicate, scale and move it to create different copies.
和球形“地球”具有同等体积的立方体的每个边长应当是10000公里,每个顶点到立方体中心的距离是8700公里!
A cube with the same volume as the spherical Earth would have a side 10, 000 km (6, 400 miles) long so the corners are 8700 km from the center!
那时特威格斯致力于一个10厘米立方体的大小的立方体卫星的研究,“我找了一个四英寸装小编毛的宝贝盒子,在上面贴上太阳能电池,看看可以贴多少个”特威格斯说,“我得到了我需要的足够的电压,所以我认为这就是我所需要的尺寸。”
"I got a 4-inch beanie baby box and tacked on some solar cells to see how many would fit on the surface, " Twiggs says. "I had enough voltage for what I needed so I decided that would be the size."
NASA计划以其未来大部分逃离地球的载荷(特别是前往月球和火星的)来运载立方体卫星。
NASA plans for most of its future Earth-escaping payloads (to the moon and Mars especially) to carry Cube Sats.
例如,亚利桑那州立大学的一个研究小组最近声称,他们开发的小型立方体卫星进入轨道的成本可能只有3000美元。
For instance, a research group here at Arizona State University recently claimed their developmental small Cube Sats could cost as little as $3,000 to put in orbit.
最常见的CubeSat是一个边长10厘米的立方体,小到容易被误认为是你桌上的一个镇纸。
The most common CubeSat is a 10cm cube, so small that a single CubeSat could easily be mistaken for a paperweight on your desk.
这里的“立方体”只是指卫星的形状。
在每个机械师的工作站上方,都有一个木制的立方体,每个面都涂着不同的颜色。
Above each machinist's workstation, there was a wooden cube with a different colour painted on each face.
即使存在限制,一些有创意的开发人员也有可能将立方体卫星技术往有害的方向发展。
Even with constraints, it is possible for some creative developers to take the CubeSat technology in directions that result in harmful outcomes.
即使存在限制,一些有创意的开发人员也有可能将立方体卫星技术往有害的方向发展。
Even with constraints, it is possible for some creative developers to take the CubeSat technology in directions that result in harmful outcomes.
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