This region typically appears red as it glows with the photons emitted when elections recombine with hydrogen protons.
由于氢质子重新结合时放射出光子使这种区域变得炽热,因此它呈现典型的红色。
The results are based on analysis of data collected during the last two weeks of the 2010 LHC run, when the atom smasher switched from colliding hydrogen protons to lead-ions.
这项成果是基于,在大型强子对撞机在2010年最后两周的运行期间,对其收集的数据进行的分析,当时这台原子对撞机改换成氢质子对铅离子的碰撞。
Protons left behind by the oxygen migrated to a second electrode made of platinum and formed into hydrogen.
氧气留下的质子便移至第二个由铂制成的电极中,接着转变成氢气。
When it had cooled further, these protons and neutrons were able to get together to form the nuclei of the lightest elements-hydrogen, helium and lithium.
而随着宇宙的进一步冷却,这些质子与中子便有能力团聚一起并组成质量最小元素中的核子,这些元素即氢、氦与锂。
For decades, particle physicists have used the hydrogen atom as a benchmark for measuring the size of protons, which are part of the core of atoms.
几十年来,粒子物理学家们用氢原子作为基准衡量质子的大小。
The scientists are working on ways to recombine the protons and electrons back into hydrogen atoms and then molecules of H2.
科学家们目前正在研究使质子和电子重新组合为氢原子的方法,再使原子变为H2分子。
At these speeds, hydrogen atoms would seem to reach a staggering 7 teraelectron volts – the same energy that protons will eventually reach in the Large Hadron Collider when it runs at full throttle.
在这个速度下,氢原子的能量将达到难以置信的7万亿电子伏--大形强子对撞机对质子全力加速才能达到这个能量。
The reaction, which requires a catalyst, turns the methanol and water into protons and electrons (in other words, dissociated hydrogen atoms) and carbon dioxide.
这种反应,需要催化剂,将甲醇和水变成质子和电子(换句话说,就是游离的氢原子)以及二氧化碳。
Because protons and neutrons have roughly the same mass (and electrons have almost no mass), the helium atom should have about four times the mass of the hydrogen atom.
由于质子与中子的质量大约相等(并且电子几乎没有质量),氦原子的质量大约应是氢原子质量的四倍。
The energy to produce ATP is provided by a gradient of protons (or hydrogen ions) found on the two sides of the membrane.
能源生产三磷酸腺苷是由质子梯度(或氢离子)上找到双方的膜。
The electricity-catalyze mechanism is explained by Hydrogenases how to catalyse the oxidation of hydrogen or to the reduction of protons of metabolism and the el.
用氢酶如何催化代谢物上氢的氧化或质子的还原以及配合态液中氧化还原过程的电子迁移规律阐释了生物的氧化还原过程中的电催化反应机理。
The electricity-catalyze mechanism is explained by Hydrogenases how to catalyse the oxidation of hydrogen or to the reduction of protons of metabolism and the el.
用氢酶如何催化代谢物上氢的氧化或质子的还原以及配合态液中氧化还原过程的电子迁移规律阐释了生物的氧化还原过程中的电催化反应机理。
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