本文为您带来光电效应的英文翻译，包括光电效应用英语怎么说，光电效应用英语怎么说，光电效应的英语造句，

本文为您带来光电效应的英文翻译，包括光电效应用英语怎么说，光电效应用英语怎么说，光电效应的英语造句，光电效应的英文原声例句，光电效应的相关英语短语等内容。

光电效应的英文翻译，光电效应的英语怎么说？

光电效应的英语网络释义

1.4光电效应机理 光电效应(photoelectric effect):在光的照射下,使物体中的电子逸出的现象叫做光电效应。光电效应分为光电子发射、光电导效应和光生伏打效应。

... photocell pick-off光电管传感器、光电元件 photoeffect光电效应 photoelectron光电子 ...

... photovoltaic driver 光电[效应]激励器 photovoltaic effect 光电效应，光生伏打效应 photovoltoics 光电池 ...

... 光电效应photogaljvanic effect 光参量放大器photogarametric amplifier 照相明胶photogelatin ...

光电效应的汉英大词典

光电效应[guāng diàn xiào yìng]

• {物} photoelectric effect; electro-optic effect; Hallwach's effect; photo-electrical effect; photoeffect
• 短语:
  • 光电效应常数 {电子} photoelectric constant;
  • 光电效应衰减系数 {核子} photoelectric effect attenuation coefficient

光电效应的英语短语

光电效应的英文例句

好了，开始光电效应的话题，好。

So, starting back with the photoelectric effect -- yes.

爱因斯坦提到的另一个现象是所谓的光电效应。

Another phenomenon mentioned by Einstein was the so - called photoelectric effect.

它是基于光电效应。

It is based on the photoelectric effect.

爱因斯坦也解释了光电效应里一个令人困扰的现象。

Einstein also explained a baffling feature of the photoelectric effect.

阿尔伯特·爱因斯坦因为发现光电效应的原理而获奖。

Albert Einstein won for discovering the law of the photo-electric effect.

有关光电效应的早期实验，并未取得协调一致的结果。

Early experiments on the photoelectric effect had not produced consistent results.

“这是爱因斯坦光电效应的一个很好的延伸，”Richter说。

"This is a nice extension of Einstein's photoelectric effect," Richter said.

光电效应和康普顿散射是光量子说的两个有名的论证实验。

Photoelectric effect and Comptom scattering are two renowned experimental phenomana in justification of the quantum theory of light.

初步讨论了藏红颜料的结构等因素对电池光电效应的影响。

The effect of the perylene red structures and other factors on the photo-voltage properties of the cells are primarily studied.

一个被电磁辐射照射的物体会发出电子，这就是光电效应。

The emission of electrons from an object when electromagnetic radiation is incident upon it is known as the photoelectric effect.

爱因斯坦光电效应方程可以完满地解释光电效应的实验规律。

The equation of Einstein photoemission can fully explain experimental rule of photoemission.

物理学家是精通或研究物理学的人，并且他一定理解光电效应；

A physicist was a person versed in or studying physics, and he must understand photoelectric effect .

太阳能光电技术是指利用光电效应，将太阳能转换为电能的技术。

Solar energy electro-optical technology refers to a technology that converts solar energy into electric energy by using photoelectric effect.

这是极端环境下的光电效应，用光波图比用粒子图更容易解释它。

It's the photoelectric effect under so extreme conditions that it's better to describe it in the wave picture of light than the particle picture.

所以，原来是光电效应，不是唯一的证明光具有，粒子特性的证据。

So, it turns out that the photoelectric effect is not the only evidence for the fact that light has these particle-like characteristics.

在1839年，法国科学家埃德蒙·贝克勒尔发现了(太阳能)光电效应。

"In 1839, French scientist Edmund Becquerel discovered (How Solar)" the photoelectric effect.

黑体辐射和光电效应等现象揭示了光还具有微粒性，即光具有波粒二象性。

Such as blackbody radiation and photoelectric effect of light also has revealed the phenomenon of particle, ie, with wave-particle duality of light.

利用光电效应的原理，我们用深紫外光照射样品，并探测出射的光电子（图一）。

Based on the photoelectric effect, when a beam of monochromatized radiation is shined on a sample, electrons are emitted and escape to the vacuum (Fig. 1).

本文简单介绍了光电效应测普朗克常数实验的基本原理及测量截止电压的三种方法。

The paper introduced the method of measuring Plank's constant by determining the cut-off voltage in photoelectric effect experiment.

好，我们刚才停止光电效应这个话题，是当我们第一次用频率，来讨论这个效应的时候。

All right, so where we left off with the photoelectric effect was when we first introduced the effect, we were talking about it in terms of frequencies.

光电效应是光电吸收截面指数（PEF）测井的测量原理，PEF测井用来划分岩性。

The photoelectric effect is the principle behind the PEF log, which identifies lithology.

在光电效应的原始版本中，一个光子击出一个电子就像将一个池子里的球中拍打出一个。

In the original version of the photoelectric effect, one photon kicks out one electron, like one pool ball smacking into another.

光电滑觉传感器是利用光电效应原理，将机械的滑动通过光信号转换为电信号加以检测。

On the basis of photoelectric effect, photoelectric slippage sensor converts the mechanical slippage into electric signal through optical signal in order to detect.

希望你们确信，你们的预测都是对的，而且当你们考虑光电效应的问题时，你们可以预测。

So hopefully you're convinced that your predictions worked well and you are able to predict what's going on when you're looking at the photoelectric effect.

跃迁的玻尔条件和光电效应的爱因斯坦定律都是微扰近似的结果，在强激光引起的跃迁中不成立。

The Bohr condition for quantum transitions and the Einstein law for photo-electric effects are approximate results of perturbation. They are violated in the transitions induced by intense lasers.

光电效应是赫兹在1887年发现的，爱因斯坦对它作出了解释，为此，爱因斯坦获得了诺贝尔奖。

The effect was discovered in 1887 by Heinrich Hertz and explained by Albert Einstein in work for which he received the Nobel Prize.

红外探测器部分主要讲红外探测器的概念、光电效应、光子探测器中的光电导探测器和光伏型探测器。

In the section of infrared detector, the concept of infrared detector, photoelectric effect, photoconductive detector and photovoltaic detector are mainly described.

本文通过普朗克常数测定仪测出三组数据，然后用统计学的一些基本知识验证爱因斯坦光电效应方程。

In the paper, three sets of data are acquired through the Planck's constant measuring instrument and some of the knowledge of statistics is employed to verify Einstein's photoelectric effect equation.

这是这个课上最后一个关于,光电效应的问题，所以希望,你们能有个高的通过率,来证明我们已经可以继续往下走。

This is the last question we'll see in class on the photoelectric effect, so hopefully we can have a very high success rate here to show we are all ready to move on with our lives here.

这是这个课上最后一个关于,光电效应的问题，所以希望,你们能有个高的通过率,来证明我们已经可以继续往下走。

This is the last question we'll see in class on the photoelectric effect, so hopefully we can have a very high success rate here to show we are all ready to move on with our lives here.

光电效应的原声例句

So hopefully you're convinced that your predictions worked well and you are able to predict what's going on when you're looking at the photoelectric effect.

希望你们确信,你们的预测都是对的,而且当你们考虑光电效应的问题时,你们可以预测。

So once we cover it, it will then be fair game to ask these photoelectron spectroscopy or these photoelectric effect questions using the wavelength of the electron.

所以一旦我们涉及到它，问及光电子能谱或者,用电子的波长问及,光电效应是一样的。

You should be able to maybe print out a blank copy of those notes from the website not for memorizing them, but now just understanding how the photoelectric effect works.

你们应该可以从网站上打印一份,这些笔记中的空白的纸张,不仅仅是为了记忆，而且现在要理解,光电效应是如何工作的。

What we had just done a clicker question on is discussing light as a particle and the photoelectric effect, so we're going to finish up with a few points about the photoelectric effect today.

我们刚才做得课堂表决器那个问题,是讨论光作为一个粒子以及光电效应，所以今天我们将以一些,关于光电效应的观点作为结束。

And the reason for this, and this is a very important point about the photoelectric effect, and the point here is that the electrons here are acting as particles, you can't just add those energies together.

这个现象的原因是，这是光电效应非常重要的一个论点,这个论点就是电子,在这里是粒子行为，你不能仅仅把这些能量加在一起。

This is the last question we'll see in class on the photoelectric effect, so hopefully we can have a very high success rate here to show we are all ready to move on with our lives here.

这是这个课上最后一个关于,光电效应的问题，所以希望,你们能有个高的通过率,来证明我们已经可以继续往下走。

This should all sound incredibly familiar, like I'm just repeating myself in terms of photoelectric effect, because essentially that's what I'm doing, and that's one reason we spent so much time and did so many problem-set problems on the photoelectric effect.

这应该听起来极其熟悉，就像我在重复自己在讲光电效应时所说的话，因为基本上我正是在这样做，这也是我们在光电效应这个问题上,花这么多时间,做这么多习题的原因之一。

So, it turns out that the photoelectric effect is not the only evidence for the fact that light has these particle-like characteristics.

所以，原来是光电效应,不是唯一的证明光具有,粒子特性的证据。

And this is called photoelectron spectroscopy, and essentially what it is is very similar conceptually to what we were talking about way back in the first couple lectures when we were talking about the photoelectric effect.

也就是光电子能谱，从本质上来讲,这项技术,与我们在最开始的几节课上讲的,光电效应在概念上非常相似。

So, we'll take a little bit of a step back after we introduce quantum mechanics, and talk about light as a wave, and the characteristic of waves, and then light as a particle. And one example of this is in the photoelectric effect.

等我们介绍完量子力学后,我们要回过头来讨论下光,作为一种波和它的波动性特征,以及光作为一种粒子,其中的一个粒子就是光电效应。

All right, so where we left off with the photoelectric effect was when we first introduced the effect, we were talking about it in terms of frequencies.

好，我们刚才停止光电效应这个话题,是当我们第一次用频率，来讨论这个效应的时候。

So, we do this here for the photoelectric effect, and in terms of the photoelectric effect, what we know the important point is that the incoming photon has to be equal or greater in energy then the work function of the metal.

所以，我们做这个是为了说明，光电效应，在光电效应方面，我们知道的最重要的事情,就是入射的光子能量必须等于,或者大于金属的功函数。

So, one difference between photoelectron spectroscopy and, for example, the photoelectric effect is that in this case, we're not just looking at one energy level, which is what we were looking at from the surface of a metal, now we're talking about this gaseous atom.

光电子能谱与光电效应的不同点在于，以这种情况为例，我们不只关心一个能级，就像原来在金属表面那样，现在我们研究的是气体原子，所以，我们可以从原子中。

All right. So let's test what we, in fact, know about the photoelectric effect, and before we do that actually, we're going to calculate what we would predict, so when we do the demo it will be meaningful and we can tell whether we're successful or not.

好的，我们来测试一些，我们实际上懂了,多少光电效应的东西，在我们做测试之前，我们先算一下我们能预知什么，这样我们做的测试会很有意义,并且也知道我们是否成功了。

So we see that we do not eject electrons in the case of the laser pointer, even if we have this intensity, it is still not related to the energy of an individual photon, so we won't see an effect.

所以我们看到我们用激光笔,还是没有逐出电子，即使我们有这样的强度，它仍然与一个单个的光子能量无关,所以我们不会看到光电效应。

When we talked about the photoelectric effect, that was called the work function.

如果我们在研究光电效应，这被称为功函数。

So, starting back with the photoelectric effect -- yes.

好了，开始光电效应的话题，好。

So this means we now have a new way of thinking about the photoelectric effect, and that nu is the idea that h times nu is actually an energy.

这意味着我们有一种,新方法来考虑光电效应,这个概念就是h乘以。

So you know that x-rays are higher frequency than UV light, for example, that means it's also higher energy than UV light, and if you think back to our photoelectric effect experiments, do you remember what type of light we were usually using for those? Does anyone remember?

你们知道，X，射线的频率比紫外光高，这意味着，它的能量也比紫外光要高，那么，请大家回想一下我们的光电效应实验，大家还记得当时我们用的是什么光源吗？,有人记得吗？

光电效应的网络释义

光电效应 光电效应是物理学中一个重要而神奇的现象。在高于某特定频率的电磁波（该频率称为极限频率threshold frequency）照射下，某些物质内部的电子吸收能量后逸出而形成电流，即光生电。光电现象由德国物理学家赫兹于1887年发现，而正确的解释为爱因斯坦所提出。科学家们在研究光电效应的过程中，物理学者对光子的量子性质有了更加深入的了解，这对波粒二象性概念的提出有重大影响。

以上关于光电效应的英语翻译来自英汉大词典，希望对您学习光电效应的英语有帮助。