mc2
- 网络大师收藏2;效果图层2实例名;第二块记忆卡
mc2
mc2
大师收藏2
首页-海兔集换式卡牌娱乐-淘宝网 ... 传奇收藏1 LC01 大师收藏2 MC2 大师收藏1 MC1 ...
效果图层2实例名
FLASH语句1夹_钻妍轩_新浪博客 ... 效果图层1实例名: mc1 效果图层2实例名: mc2 效果图层3实例名: mc3 ...
第二块记忆卡
08.选择菜单最下面的“Uncrush”选项,把“U盘”的存档以解压的形式,复制到第一块记忆卡(MC1)或第二块记忆卡(MC2)上 …
第二个数岔
从树的根(_root)部数,第二个数岔(mc2)的第二节有个苹果(apple). 那绝对路径表示苹果的位置_root.mc2.apple 如果你 …
1
As a consequence of relativity, he postulated the formula, E=mc2, to understand the amount of energy required to attain the speed of light.
作为相对论的结果,他提出了E=MC2来理解要达到光速所需要的能量。
2
His special theory also provided the basis for his most famous discovery, E=mc2, an equation that opened the door to the atomic age.
他的独特理论也给他最为著名的发现奠定了基础,那个发现就是E=mc2——一个打开原子时代大门的方程式。
3
So by Einstein's E=mc2 equation, the change in mass is transformed into a burst of energy.
因此,根据爱因斯坦的E=mc2方程式,大规模的原子聚变可转换成能量的大爆发。
4
If the experiment is tested and replicated and the only explanation is faster-than-light neutrinos, is E = mc2 done for?
如果OPERA实的验经得住考验和可以重复,那么唯一的解释就是比光速更快的中微子,E=MC^2还能做什么呢?
5
As is best shown in the equation E=MC2, energy and matter are fundamentally connected.
正如著名的方程式E=MC2所示,能量与物质紧密相连。
6
Einstein's famous equation, E=mc2, outlines how energy is equivalent to mass times the square of the speed of light.
这个道理可以参考著名的爱因斯坦质能方程式,E=mc2,能量E是质量m乘以光速c的平方项。
7
Who discovered that E = mc2? It's not as easy a question as you might think.
谁发现了质能公式E=mc2?这个问题可不象你所想的那么简单。
8
Einstein's E=MC2 equations purported that light speed was the fastest possible, so man has been operating on that assumption.
爱因斯坦的质能方程生成光速是所能达到的最快速度,所以人类在这个假设上一直前进着。
9
In E=MC2 of Einstein, C2 is a constant as it is the square of the constant C, velocity of light.
爱因斯坦说E=MC2,C是光速,是一个常数,常数的平方当然也是一个常数。
10
Since mass is linked to energy by Albert Einstein's famous equation (E=mc2), a lighter Higgs would require less energy to produce.
从阿尔伯特•爱因斯坦的著名方程(E=mC2)可知,质量与能量相关。希格斯玻色子越轻,产生这种粒子所需的能量就越小。
11
The e=mc2 formula shows that mass can be converted into energy, and energy can be converted into mass.
e=mc2这个公式表明质量和能量是可以相互转换的。
12
Einstein's other theories including his most famous formula E=mc2 have also withstood scientific testing.
爱因斯坦的另一理论(包含有他最经典的等式:E=mc2)同样经受住了科学的检验。
13
There is also an overbridge on the newly-built information highway in Beijing with the name of E=MC2.
北京新建的传媒大道有一座过街天桥的名字也叫E=MC2;
14
Einstein had written an article in his later years (1946) with the subject of E=MC2.
爱因斯坦在晚年(1946年)写了一篇文章,题目是《E=MC2》。
15
Professor Einstein, you can relax. E still equals mc2. Probably . . .
爱因斯坦教授,您老可以放心了。E仍旧等于
16
According to Albert Einstein's famous equation, E=mc2, the heavier the particle, the more energy is needed to produce it.
据爱因斯坦著名的方程e=mc2,粒子越重,那么就需要向其提供更多的能量。
17
The next LSA will require a second MC (MC2) and we should use this opportunity to further develop the design.
下一个LSA将会需要第二台的MC(MC2),我们应该利用这个机会去更进一步地发展完善这个设计。
18
In Why Does E=mc2? , Brian Cox and Jeff Forshaw tackle the most famous equation of all time in a remarkably comprehensible way.
在《为什么E=mc2?》中,布莱恩·考克斯和杰夫·福肖赋予了这个有史以来最有名的方程式一种非凡的理解方式。
19
For example, in the case of E = mc2, c refers to the speed of light in a vacuum.
比如在E=mc2这个例子中,c代表真空中的光速。
20
The 2 pages, selected from a total of 46, contain Einstein's famous equation E=MC2 (squared).
这份文稿中包含著名的相对论公式:E=MC2(平方)。