They might 'form' a new atom named hydrogen.
Nucleophiles are reagents that seek to react with a proton or other electron-deficient center by donating a pair of electrons.
There is zero net charge as the proton (+ve) and electron (-ve) cancel each other out and the neutron is neutral.
The net charge of a system containing one proton and one electron is neutral, or zero. A proton carries a charge of +1 elementary charge, while an electron carries a charge of -1 elementary charge. When these charges are combined, they cancel each other out, resulting in no net charge.
No. The opposite of an electron is an antielectron or positron, which has exactly the same mass but opposite charge. A proton has opposite charge from that of an electron, but it is about 1836 times more massive.
If they can bond, they will, and form a molecule. If they can't, then they bounce away.
The electron in each atom starts to notice the proton of the other atom. As a result, it becomes attracted not only to its own proton, but to the proton of the other atom as well. ... And electrons tend to repel each other.
Protons all have positive charge, so they repel each other. It takes work to push two protons closer together, so you're putting energy into them (potential energy increases). If you let go, the potential energy is released when the protons fly apart; it becomes kinetic energy.
True. But please note that there are other differences between the proton and the electron as well - for example, the proton has a larger mass, and the proton is made up of smaller particles, while the electron - as far as we know - is not.
Nucleophiles are reagents that seek to react with a proton or other electron-deficient center by donating a pair of electrons.
There is zero net charge as the proton (+ve) and electron (-ve) cancel each other out and the neutron is neutral.
The value of quarkes partical in protonis less than the value of quarkes particalin electron in this condition proton is share of energy in form of partical to nutron and electron beacose proton made from two up and one down quarkes particals fully not shears of energy to each other in proton . but quarkes particals are shear of energy to each other in side of electron beacose three up same quarkes particals are in side of electron.
A proton has positive charge and an electron has negative. They pull/attract for this very reason. Like-charges repel, and opposites attract. Think of magnets! When you put the same poles close to one another, what happens? They repel and they don't want to stick. But what happens when you put the south pole near the north pole? They pull and attract!
No, their charge is equal to each other.
A proton is a subatomic particle found in the nucleus of an atom. A hydrogen ion, on the other hand, is a positively charged ion of hydrogen that has lost its electron. So, a hydrogen ion is essentially a proton outside of the nucleus.
The net charge of a system containing one proton and one electron is neutral, or zero. A proton carries a charge of +1 elementary charge, while an electron carries a charge of -1 elementary charge. When these charges are combined, they cancel each other out, resulting in no net charge.
True. The proton has a positive electrical charge and a slightly larger mass than the electron, which has a negative electrical charge. They have equal but opposite charges, making them attract each other in an atom.
No. The opposite of an electron is an antielectron or positron, which has exactly the same mass but opposite charge. A proton has opposite charge from that of an electron, but it is about 1836 times more massive.