Another useful (if somewhat unorthodox) way to take in this graph is to follow the horizontal gridlines.
对这个图表另一个有用的(或许有点非常规)分析方法是从纵坐标来看。
Neither Eular circuit nor Eular path exists in this graph, since there are more than two vertices with odd degree.
这个图既没有欧拉回路,也没有欧拉路径。因为有超过两个顶点的度数为奇数。
Note that the only other time that the lines separate in this graph was once again when the phone was put on the charger and topped up to 100%.
要指出的是,当手机插上充电器并充电充到100%的时候,图表中显示只有在其他时间系统显示的电量和计算得出的电量不相一致。
That happens, and if I was looking at a region of membrane that was experiencing an action potential I would see voltage change in just the way it's shown in this graph here.
当去极化发生时,如果我观察一个经历动作电位的区域,我就会看到这样的电压变化,就像这幅图上展示的一样
And the reason we can see that by looking at this graph is that we see that nitrogen when it's bonded is in an even lower well than we saw for hydrogen.
原因可以通过观察这幅图发现,我们看到氮在成键之后将处于更低的势阱中,对氢而言。
I just wanted to show you this last graph, or this last set of statistics to go from causes of death in the U. S.
我想让你们看的最后一张图,或者说最后一组统计数据,不是关于美国人的死因
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