本文为您带来半径的英文翻译，包括半径用英语怎么说，半径用英语怎么说，半径的英语造句，半径的英文原声例

本文为您带来半径的英文翻译，包括半径用英语怎么说，半径用英语怎么说，半径的英语造句，半径的英文原声例句，半径的相关英语短语等内容。

半径的英文翻译，半径的英语怎么说？

半径的英语网络释义

半径(Radius)：当点云跳点较多时，很难达到生成的曲面都通过点云和轮 廓。可以通过指定半径值将以选定曲线为中心的管状区域内的点过滤掉。

... semidiametercorrection半径差改正量 semidiameter半径 semidiameter半径 半径差 ...

... CH 特性 Alt N R 半径 APPINT 两个对于象的外观交点 ...

半径的汉英大词典

半径[bàn jìng]

• {数} radius; {天} semidiameter
• 短语:
  • 半径规 {机} radius gauge;
  • 半径铣刀 {机} radius cutter

半径的英语短语

半径的英文例句

他标示出一个半径大约三十英里的半圆。

He indicated a semicircle with a radius of about thirty miles.

放射性的镭散热器在体育场的辐射半径是可变的。

The radiation radius of the radioactive radium radiator in the stadium is variable.

在他们的模型中，半径是动物中心到其皮肤的距离。

In their model, the radius is the distance from the center of the animal to its skin.

因为它们更接近摄像机，所以这次的半径为20像素。

This time with a radius of 20 pixels since they are closer to the camera.

只需将半径更改为2000，您应当便会看到一些结果，当然。

Simply change the radius to 2000, and you should start to see some results.

我们讨论的是概率，但我们说的是最可能的半径，离原子核更远。

We are talking about probability, but what we're saying is that most probable radius is further away from the nucleus.

要将这个公式转换为一个表达式，你需要使用变量来记录半径及周长。

To translate this formula into an expression, you would use variables to record the radius and circumference.

它们是轨道的半径，系统的能量以及电子的速度，我接下来给你们展示解法。

They are the radius of the orbit, the energy of the system and the velocity of the electron, and I am just going to present you the solutions.

缩小三通相贯区内拐角处圆弧半径。

Reduce radius of synodical arc of tee.

对于偏心模型，希帕克斯发现了偏心半径之间的比率。

For the eccentric model, Hipparchus found for the ratio between the radius of the eccenter.

另一种治疗外切向日葵压力的半径疗法是无脂体育运动。

Another radius medicine for circumscribed sunflower pressure is fatless physical exercise.

这种不稳定性的机制是基于声波在其同心圆半径和冲击之间的循环。

The mechanism of this instability is based on the cycle of acoustic waves between their corotation radius and the shock.

实际的速度就是半径乘以角速度。

The actual speed is the radius times angular velocity.

你看到半径是高的，然后下降。

You see the radius is high and then it falls.

也就是说，单位长度等于半径。

So, take the length unit to be equal to the radius.

然后是轨道上的速度,然后是半径。

Out of that pops its velocity in orbit and out of it pops its radius.

我们还学了能量，学了半径。

We have energies. We have radii.

它们材料不同，半径相同，长度相同。

They have very different masses, same radii, same length.

碳原子的大小以其范德华半径为基础。

The size of the carbon atom is based on its van der Waals radius.

我是在试着，去解圆的半径。

I am trying to solve, actually, for the radius of the circle.

关于球体，法向量是,除以球的半径。

So, for a sphere, the normal vector is divided by the radius of the sphere.

包括原子半径，以及等电子原子的概念。

This includes atomic radius and the idea of isoelectronic atoms.

这是原子半径和原子序数。

Here is atomic radius versus atomic number.

所以半径就是这里的距离。

So the radius will just be this distance here.

这是稀有气体的离子半径。

This is ionic radii with a noble gas configuration.

这条半径随着车轮的向前移动在旋转着。

And, that radius rotates around the wheel as the wheel is moving forward.

波尔半径，对于氢原子来说是0。529埃。

The Bohr radius, for hydrogen is 0.529 angstroms.

这个圆环的半径是。

R And let the circle have a radius r.

首先，在大家的讲义上，我是从原子半径开始的。

And first, on your lecture notes, I start with atomic radius.

因此它的半径。

And so the radius of this...

半径的原声例句

We can graph out what this is where we're graphing the radial probability density as a function of the radius.

我们可以，画出它来,这是径向概率密度,作为半径的一个函数图。

Sorry, said that wrong, p1 radius 1 and angle 2, 2 radians is a little bit more than pi half.

而是半径和角度的表示，在这个例子中点，并不对应这个点,它实际上对应的是。

We are talking about probability, but what we're saying is that most probable radius is further away from the nucleus.

我们说的是概率，也就是说它的最可能半径,离原子核更远。

The radius of the orbit, the energy of the system and the velocity of the electron, I am just going to present you the solutions.

是轨道的半径，系统的能量,以及电子的速度，我接下来会给你们讲解其方程的解法。

So would you expect, therefore, as we go across a row for the atomic radius, to increase or to decrease? Good. OK, yes.

那么大家觉得，原子半径沿着某一行向右走，是会增大还是会减小呢？很好，不错，是的。

Instead, what people have done is come up with different ways to think about how they can define a radius.

而是，人们想出了其它方法,来定义半径。

In other words,just want to know where the electron is somewhere within the shell radius of the ground state of atomic hydrogen anywhere.

换言之，我只是想知道,电子在哪,可以在氢原子基态下的半径,里面的任何地方。

We'll then take a turn to talking about the periodic table, we'll look at a bunch of periodic trends, including ionization energy, electron affinity, electronegativity and atomic radius.

然后我们再开始讲元素周期表，我们会看到很多周期性规律，比如电离能，电子亲和能，电负性以及原子半径。

a0 This is equal to a sub nought for a hydrogen atom, and we remember that that's just our Bohr radius, which is . 5 2 9 angstroms.

它等于,我们记得，这就是波尔半径,也就是0，529埃，实际上。

So we haven't gotten to molecules yet, we're just talking about single atoms or single ions, but what's nice is just talking about this very straightforward principle of atomic radius.

我们还没有开始讲分子，我们仍然只是在讨论单个原子或离子，但它的好处在于可以讨论,这个关于原子半径的非常简单直接的原理。

But what's important is not where that most probable radius is when we're talking about the z effective it feels, what's more important is how close the electron actually can get the nucleus.

但重要的不是,最可能半径,当我们谈论它感到的有效电荷量的时候，更重要的是,电子实际上。

How far you are away from the nucleus in terms of a radius, they don't depend at all on those two angles, theta they're independent of theta phi and they're independent of phi.

只和离核子的距离，也就是半径有关，它们和,另外两个角度无关，它们不决定于,也不决定于。

So as we go down we're now adding electrons to further and further away shells, so what we're going to see is that the atomic radius is going to increase as we're going down the periodic table.

当我们向下走时,我们会将电子加在越来越远的壳层上，因此我们将看到原子半径,将随我们沿周期表向下走而增大。

You just need to remember what's happening to z effective, which really tells us what's happening with all the trends, and once you know z effective, you can figure out, for example, what direction the atomic radius should be going into.

你只需要记住有效核电量的规律，实际上它会告诉我们所有的规律，只要你知道了有效核电量的规律，你就可以判断，比如，原子半径会向着哪个方向发展。

And what we've been talking about with all of these properties are, of course, how can we figure out what that is for a certain atom by looking at the periodic table, so we want to think about the periodic trend for atomic radius.

对于我们讲过的这些性质，我们所讨论的一直都是,当然是，我们如何能够判断某一个原子的这些性质,通过观察周期表，因此我们需要思考一下原子半径的周期性规律。

self y Notice what I also do here, I create self dot y, give it a value, and then, oh cool, I can also set up what's the radius and angle for this point, by just doing a little bit of work.

我创建了，然后给它赋值，然后，噢太酷了，通过做一点额外的工作,就可以得到点的半径和角度了，好，实际上如果。

Different understandings of what that piece means gives you different values, and that's a bit of a problem.

应该是半径为1角度为,弧度为2比圆周率的一半，稍微多一点。

And immediately it should probably come into your head that we don't actually have an atomic radius that we can talk about, right?

一提到这点你就应该立刻想到,我们并没有一个真正的原子半径,可以讨论，对吗？

The radius of the nucleus as compared to the radius of the entire atom is on the order of about one to 10,000.

原子核的半径,相对于整个原子的半径来说,是1比10000这个数量级。

We are expecting to see that it decreases because it's feeling a stronger pull, all the electrons are being pulled in closer to the nucleus, so that atomic size is going to get smaller.

我们将看到它是减小的,因为电子会感受到越来越强的吸引力，所有的电子将会被原子核拉得越来越近，所以原子半径将越来越小。

Just to drive home one more reason why I don't want to have changes to the values other than through pre-defined things.

注意如果我这么做的话会发生什么,我可以说我想要改变,某个特定点的半径。

We can't define it as an exact radius in terms of the definition we might think of classically.

我们不能给它定义一个精确的半径,按照经典的图像来。

So, keep that in mind when we're talking about atomic radius, I'm not suddenly changing my story and saying, yes, we do have a distinct radius.

因此，当我们讨论原子半径的时候要时刻记住这一点，我并不是在突然改变自己的说法，说是的，我们的确有一个准确的半径。

If it's in polar form I passed in a radius and angle and I'll compute what the x- and y- value is.

以及半径和角度,但是现在是这样的,不管我是以哪种形式。

So, by the same logic, that means that all of our positively charged ions are, in fact, going to be smaller in terms of radius, compared to their neutral parents.

那么，按照相同的逻辑，我们所有的正离子，事实上，它们的半径都会缩小，与它们的中性母体相比。

And the second point is of radius 3 and angle 1, which is up about there.

半径为2然后角度为1的一个点,也就是差不多在这儿，我认为为了确保我做的是。

It is the value of the radius of the ground state electron orbit in atomic hydrogen.

它就代表氢原子基态电子,的轨道半径。

Heck,he deserves to have his name on the board, Marsden So, Marsden concluded by his analysis that the radius of the nucleus, and this is Rutherford, by the way, coining this term.

见鬼，他的名字配写在黑板上，马斯登,马斯登根据分析得出,核的半径，这是卢瑟福，插一句，创造了这个术语。

So, essentially we're just breaking it up into two parts that can be separated, and the part that is only dealing with the radius, so it's only a function of the radius of the electron from the nucleus.

所以本质上我们把它写成,两个可分离的部分，这部分，只与半径有关，它仅仅是，电子,到核子距离的函数。

半径的网络释义

半径 "半径"是个多义词，它可以指半径（数学几何中的术语）,半径（杨敏演唱歌曲）,半径（2019年电影）。

以上关于半径的英语翻译来自英汉大词典，希望对您学习半径的英语有帮助。