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And you can interact with the complement, the passive visualizations in a very nice way.
你可以和物质进行互动,和被动型直观化里的物质,完美地互动。
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The way we use technology to overcome that is we have a lot of simulations and visualizations set up, built around in the virtual spaces.
我们用技术来解决这个问题的方法,是我们用很多模拟实验,以及直观化实验,放在模拟空间里。
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They allow you to interact with phenomenon you see in the passive visualizations, although we're not this rich in terms of graphic detail.
他们能使你和在被动型直观化里的,那些现象,进行互动,尽管从图表细节来说,我们并没有多少。
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So that you do the experiment, you see the phenomenon, and then you see the visualization that adds things to the phenomenon that you normally can't see that are there whether or not sealed.
因此我们通过做实验,观测到现象,然后看到直观化的过程,它会将你平时看不见的物质,添加到这个现象中,让你感觉它本来就在那儿。
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Then they look at the visualization and they see a global characterization of the field.
然后他们观看直观化过程,他们会看到一个,全球化领域。
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We also have active visualizations because there's a lot of research showing that if you're actively engaged in something that solidifies the learning objectives we're taking home.
我们同时也有主动性直观化,因为很多研究结果表明,如果你积极地参与,到一些使学习目标具体化,的活动中去的话,便能真正理解它。
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So we're making the unseen seen in the visualizations.
因此我们通过直观化过程,使看不见的东西变得可见。
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That's the passive visualization.
那便是被动直观化。
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For example, one of the experiments we do is measure the magnetic field of current coil, and after we do the experiment, we all have a passive visualization that shows the same experimental set-up, except we add to that.
比如,我们做的一个实验就是,测量电线圈的磁场,在我们做完实验之后,我们都感受到了一个直观化的过程,它展现了同样的实验过程,只是那是我们加的。
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We have passive visualizations.
我们有被动直观化。
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So in addition to passive visualizations, we build these by using like 3D animation program.
因此我们在被动直观化,的基础上添加了,3D动画效果。
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But we also use active visualizations we have a couple of ways to do active 3D visualizations.
但我们也使用主动性直观化,我们有很多方法,来实现3D直观化过程。
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