A proton is an elementary particle of matter that possesses a positive charge.
质子是带正电荷的物质的基本粒子。
I'm going to say, quite to the contrary, the positive charge is concentrated at the center in a tiny, tiny, tiny volume.
我要说的是,完全相反,正电荷集中在中心,在一个非常非常小的体积内。
It will be a particle with a positive charge and a positive mass.
它将是一个带着正电荷和正质量的粒子。
It still has positive charge, and there is nothing saying another chloride could not stick to it.
它仍然具有正电荷,不能说明另外一个氯,不能固定在上面。
When a voltage is applied, positive charge builds up on one electrode and negative charge on the other, creating an attractive force that squeezes the polymer.
加载电压时,正负电荷分别在两个电极上聚集,生成一股挤压聚合物的引力。
There is nothing saying that that sodium, its positive charge has not been neutralized.
什么也没有,钠的正电荷没有被中和是。
They would be particles of positive charge.
它们也许是带有正电荷的粒子。
They had the evidence before their eyes for these new particles with positive charge and the same mass as the electrons, but they were just unable to appreciate what they saw.
那些带有正电荷且质量与电子相等的粒子存在的证据就在他们眼前,但他们却没能对他们所见到的东西有所鉴别。
The solar energy companies are using the solar panel design with new semiconductors to catch the electricity caused by the positive charge.
该公司设计的太阳能电池板装有一种新型的半导体,这种半导体能捕获正电荷产生电能。
The electrons carry the negative charge, the protons carry the positive charge. That was all that was needed.
电子携带负电荷,而质子携带正电荷,这就是所有需要的东西。
The oxygen atom has a slight negative charge while thehydrogen atoms share a compensating positive charge.
氧原子有轻微的负电荷,而氢原子则带对应的正电荷。
The only particles of positive charge known at that time were protons.
当时唯一知道的带有正电荷的粒子是质子。
So, if I've got positive charge uniformly distributed, look at the choice. It's a brilliant experiment.
所以如果按照正电荷是均匀分布的假设来说,就会是这样的,这是一个聪明的实验。
And remember that in a capacitor, negative charge builds on one side and positive charge builds on the other.
还有在电容中,也使正电荷在一侧,负电荷在另一侧。
In all of the known chemical compounds of the noble gases, the noble-gas atom has a net positive charge.
在为人所知的所有稀有气体化合物中,稀有气体原子具有净正电荷。
They sleep not only in the crib, but in baskets, socks, dishes... Take a look at these cute pictures and get a positive charge!
他们睡觉之所可谓五花八方,不仅仅在婴儿床,还在篮子里,袜子里,盘子上……欣赏一下这些可爱的照片吧,相信你看后一定能心情大好!
So while an electron has a negative charge, its antimatter counterpart, a positron, has a positive charge and they annihilate each other when they get too close.
所以,电子带负电,那它对应的反物质正电子就带正电,并且它俩如果靠太近就会湮灭掉。
Where is the center of the excess positive charge?
那键的正电荷中心呢?
I'm going to say that the positive charge is not uniformly distributed.
我要说,正电荷不是均匀分布的。
The total negative charge of the electrons is equal to the positive charge of the nucleus.
所有电子的负电荷,等于核的正电荷。
A positive charge applied on the top surface of the ink will allow the white to show, making the surface as white as a sheet of paper.
加上墨水表面上方的正电荷将使白色显现出来,使表面像一张纸那样白。
OK, so all I do is I take into account that I've got all the positive charge, whatever it is, it's a nucleus.
我做的全部是考虑,我得到所有的正电荷,无论是什么,都是一个核。
You've got a positive charge here with a negative charge around it.
正电荷在这儿,负电荷在周围。
She says her body can emit a negative or positive charge, depending on the time of the month.
她说她的身体能在每月的不同时间释放出负电荷或者正电荷。
A subatomic particle with the same mass as the electron but positive charge (it is the antiparticle of the electron).
与电子的质量相等但带正电荷的亚原子粒子(是电子的反粒子)。
Just as there is a positive charge for every negative charge, there is a light side to every dark side.
正如每个负电荷都有其对应的正电荷一样,每个黑暗面都有其对应的光明面。
When an atom loses one or more electrons it acquires a positive charge and is known as a cation.
当原子失去一个或多个电子时,它就带正电荷并被称之为阳离子。
A proton has positive charge and an electron (has) a negative charge, but a neutron has neither.
质子带有一个正电荷,电子带有一个负电荷,但这两种电荷中子都没有。
A proton has positive charge and an electron (has) a negative charge, but a neutron has neither.
质子带有一个正电荷,电子带有一个负电荷,但这两种电荷中子都没有。
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