好了,开始光电效应的话题,好。
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。
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.
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.
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.
“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.
应用推荐