最后这个是我们,都很熟悉的普朗克常数。
And finally we have Planck's constant here, which we're all familiar with.
物理学家重新计算了普朗克常数。
有普朗克常数在第5个。
对形成普朗克常数的原因给出一种试探性的解释。
This paper attempts to explain Planck constant. It proposes the definition of charge group.
设计了普朗克常数测定实验的计算机数据拟合程序。
The data fitting program of computer is designed for the experiment for measuring Plank constant in the paper.
一开始将电子电荷平方,再除以光速和普朗克常数,然后将总数乘以2个圆周率。
You start with the square of an electron's charge, divide it by the speed of light and Planck's constant, then multiply the whole lot by two PI.
这些离散的值乘以整数,乘积因子,是普朗克常数除以2π,其中n可以取1,2,3,等等。
n It takes discrete values, multiples of some integer n, and the multiplication factor is the ratio of the Planck constant divided by 2 pi where n takes one, two, three and so on.
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.
介绍了一种利用计算机测量普朗克常数的方法,对于测量系统的硬件结构给予较详细的说明。
Introduces a method to measure Planck's constant under computer, illustrates the hardware structure of measurement system.
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.
介绍了新型普朗克常数测定器的主要技术指标,并介绍了用该仪器演示光电效应现象和测定普朗克常数的方法。
This article introduces the technical index about the measurer of a new Planck constant and the methods of demonstrating photoemission phenomenon and measuring Planck constant.
一些理论物理学家认为宇宙的量子本质应该在“普朗克常数”范围内:即十的负三十五次方米,而一毫米才不过十的负三次方米。
Some theories suggest that the quantum nature of space should manifest itself at the ‘Planck scale’: the minuscule 10-35 of a metre, where a millimetre is 10-3 m.
介绍了光电效应实验中通过确定截止电压测量普朗克常数的方法,并分析了实验中产生误差的原因,指出减小误差的方法。
This paper briefly introduces the basic principles to measure plancks constant by photoemission and the three methods to measure cut-off voltage.
根据普朗克定律,推导出仪器的输出电压是扩展源辐射亮度的单调增函数和常数的乘积。
Based on the Planck principle, it is deduced that the BIIR output voltage is the product of a constant and a monotonic increasing function of radiation luminance from the extended sources.
根据普朗克定律,推导出仪器的输出电压是扩展源辐射亮度的单调增函数和常数的乘积。
Based on the Planck principle, it is deduced that the BIIR output voltage is the product of a constant and a monotonic increasing function of radiation luminance from the extended sources.
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