It has a strong electric charge
Do you mean Charges? There is the Proton which has a positive or + charge. An electron which has a negative or - charge. And a nuetron that has no charge. There are other sub-subatomic particles i don't think they have charges though.... not sure on that one.
Usually, the path that a subatomic particle takes is called just that, its path. Certain terms are used for specific circumstances, though, such as; orbit, when you're talking about atomic electrons; track, when you're referring to a particle's path in a cloud or bubble chamber; and beam, when referring to the path of a group of similar particles in an accelerator.
Yes, there have definitively been proven to be particles smaller than protons, neutrons, and electrons which in fact make up protons, neutrons, and electrons. Many others are theorized and their operations are much hypothesized but not necessarily known. That is the field of quantum physics. Chemistry concerns itself primarily with electrons (though protons and neutrons play their roles). The quantum-physics particles which make up protons, neutrons, and electrons are generally thought of to be in a different class or category, though they are technically "sub atomic particles."
Smallest particles in an atom are named as subatomic particles. They have been categorized into four. They are photons, leptons, mesons and baryons. Baryons are further classified into nucleon and hyperon. Photon is the smallest one whose rest mass is zero. Though it does not have mass, it has momentum. The energy content of a photon is mainly decided by the frequency of the radiation. So E = h v. v (nu) is the frequency Leptons are some how heavier but lighter than mesons. Electrons, positrons, neutrino, muons all come under this category Mesons have different types such as pi meson, eta meson, k meson etc Baryons have nucleons (protons and neutrons) and hyperons. (much heavier than nucleon) Apart from these there are strange particles and these are being studied and science now and then comes across new discoveries of subatomic particles. So far more than 100 particles have been discovered.
The negative particles (electrons) are balanced by the positive particles (protons).
You can observe a rotating object, and see how fast it rotates. To determine the spin of subatomic particles is a bit more complicated, though.
Subatomic particles form an atom. Different or identical atoms binded together, form molecules. DNA is a multimolecule of its own.That's all I know.The question though is why it replicates itself?
Neutron: Mass: 1,00866491600(43) amu. Charge: neutral Electron: Mass: 5,4857990946(22)×10−4 amu. Charge: negative Proton: Mass: 1,007276466812(90) amu. Charge: positive
You think probable to proton and neutron.
... particles.... particles.... particles.... particles.
A current usually involves the movement of charged particles. ANY charged particle will do; though quite often, it is the electron (negative charge). Other options include holes (positive), and ions (positive or negative) in a solution.
Yes, you can travel through empty space. The Sun, Earth, moon, satellites, space ships, atoms, and subatomic particles all travel through empty space. Greater than 99.999% of matter is empty space.
From Earth, the Photosphere is the part visible on the Sun, though the Corona is the top layer of the Sun. We cannot see the Corona because the Photosphere is so bright.
Do you mean Charges? There is the Proton which has a positive or + charge. An electron which has a negative or - charge. And a nuetron that has no charge. There are other sub-subatomic particles i don't think they have charges though.... not sure on that one.
Usually, the path that a subatomic particle takes is called just that, its path. Certain terms are used for specific circumstances, though, such as; orbit, when you're talking about atomic electrons; track, when you're referring to a particle's path in a cloud or bubble chamber; and beam, when referring to the path of a group of similar particles in an accelerator.
Non ionic atoms have no electric charge, even though most of their particles have charge, because the positive particles (protons) balance the negative particles (electrons).
Non ionic atoms have no electric charge, even though most of their particles have charge, because the positive particles (protons) balance the negative particles (electrons).