Well, we know we are on the X-axis.
我们在x轴上。
So, let's do the first one on the x-axis.
首先算x轴上的。
Let's say we do rotation about the X-axis.
也就是绕x轴旋转。
First, calculate the X-axis scaling factor.
首先计算x轴的比例因子。
The motion is only in the x-axis, along the x direction.
只在x轴,沿着x轴的方向进行移动。
We are doing it by shadow so you just project to the X-axis.
只需投影到x轴。
By default, time (the units on the X-axis) is shown in seconds.
默认情况下,时间(x轴上的单位)的显示单位为秒。
It is slightly strange but I have y in inertia about the x-axis.
这有点奇怪,关于x轴的转动惯量跟y有关。
The other thing I want you to notice, is the X-axis runs from to 3.
另一件事是,这个x轴是从3开始的。
Hence each reading is plotted at 20-pixel intervals along the X-axis.
因此每次读取操作的结果在x轴上间隔20像素进行绘制。
The X-axis will scale itself based on the number of values passed in.
X 轴将会按照传入的数据个数自动缩放。
In Figure 7, the X-axis represents the number of objects per transaction.
在图7中,x轴表示每个事务的对象数。
In Figure 8, the X-axis represents the number of objects per transaction.
在图8中,x轴表示每个事务的对象数。
For the X-axis, we only need to specify the first column where the data starts.
对于x轴,我们仅需要指定数据开始的第一列。
Same thing as above, distance to the X-axis, because that is what we care about.
同上所述,到x轴的距离,那是我们想要求的。
Now, we notice that the X-axis is not really marked in degrees and does not look good.
现在,我们注意到x轴实际没有标记为度数,看起来不是很好。
Therefore, the X-axis span should be divided into four equal segments of length=span/4.
所以,应该将X 坐标轴的跨度分成4 个相等的区段,每个区段的长度 = 跨度/4。
Well, the first ray that we might want to consider is the one that goes along the X-axis.
我们要考虑的起始射线,是沿着x轴的射线。
If you take this point here, it is going to go in a circle like that centered on the X-axis.
如果在这里取一个点,它会绕x轴上一点旋转。
If I look only at the slice parallel to the X-axis then maybe I am going through the minimum.
如果我只观察平行于x轴的切面,那这应该是一个极小值点。
So, for example, I tell you how to set the x-range to limit the range on the X-axis of the graph.
所以,例如,我告诉您如何设置x范围来限制图表中x轴的范围。
By the way. Instead of going first along the X-axis vertically, you could do it the other way around.
顺便说下,如果不是先沿x轴再垂直走,你也可以换种方法走。
So, as you do with the x-axis in the Cartesian plane, you consider a particular cell to be the origin.
因此,在笛卡尔平面使用x轴时,考虑一个特定的细胞为原点。
This point on the x-axis separates the important causes on the left and less important causes on the right.
在X轴上的那一点把重要的事情分到了左边,次要的事情分到了右边。
The easiest of all, probably, is to just go first along the x-axis to and then go up parallel to the y-axis.
最简单的会是,首先沿x轴到,然后平行于y轴走。
So I can draw a diagram that looks just like this except now with the X-axis being the gas phase composition.
这样我就可以做一个,和这个相似的相图,唯一不同之处就在于x轴代表气体组分比。
Let's say that I want to go along this path from the origin, first along the X-axis to and then vertically to.
我想从原点开始沿着这条路径,首先沿x轴到,再垂直到。
The X-axis is time, the left Y-axis is response time in seconds, and the right Y-axis is the number of user connections.
x轴是时间,左边的y轴是响应时间,单位为秒,右边的y轴是用户连接的数量。
In the table below, the token on the X-axis can follow the token on the Y-axis if their meeting place is marked with an x.
在下面的表格中,若x轴上的符号和y轴上的符号对应的交界处用x作了记号,则相应x轴上的符号可以接在y轴上符号的后面。
An exercise that you can do, which is actually pretty easy to check, is say that we have a fluid that is just rotating about the X-axis uniformly.
可以做练习来检验一下的,实际上很简单,假定有围绕x轴一起旋转的流体。
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