yes. all particles with like charges repel each other.
1) what is electron? 2) what is matter? 3) structure of atom?
The only short answer I can think of for this question is "no".Electric charge is a property of certain fundamental particles. We don't know why they have the specific charges they do, they just do. When you lump them together into an atom ... or anything else ... whether that "lump" ends up with an overall charge or not depends on whether the charges on the fundamental particles within it cancel out or not. For neutrons they do; for protons they don't.
One of the most important properties of colloidal solutions is that colloidal particles posses a definite type of electrical charge. In a particular colloidal solution, all the colloidal particles carry the same type of charge, while the dispersion medium has an equal but opposite charge. Thus, the charge on colloidal particles is balanced by that of the dispersion medium and the colloidal solution as a whole is electrically neutral.
The protons, which are positively charged, and the neutrons, which have no charge (which are electrically neutral) make up the nuclei of atoms. The electrons, which are negatively charged, will be found far from the nucleus in the electron cloud.
False. While objects are made up of tiny particles such as atoms and molecules, not all of them necessarily have electric charges. Some particles are neutral, meaning they have an equal number of positive and negative charges and cancel each other out.
"All subatomic particles have the same mass" is not a true statement, as different subatomic particles, such as protons, neutrons, and electrons, have different masses and charges.
yes. all particles with like charges repel each other.
ALL the subatomic particles, protons, neutrons, electrons, quarks, neutrinos, etc.
True. All objects are made up of atoms, which consist of even smaller particles known as protons, neutrons, and electrons. These particles have electric charges that interact to form the structure of matter.
A neutron has no charge. Electron and protons have charges. I'm assuming you are not talking about quantum particles.
A neutron has no electric charge. However, it is made up of smaller particles (quarks), which have both positive and negative charges. The total sum of all these charges, in the case of a neutron, is zero.
Yes, effectively. Exactly what "material" is varies, depending upon whom you ask, however.
Basically, all matter is made up of positive and negative electric charges. In many cases, the positive and negative charges cancel one another, so that the object appears to be neutral on a large scale, to the outside - or it may be closely enough balanced so as to appear to be neutral. In other cases, there may be a net positive or a net negative charge. Please note that there are indeed particles, such as the photon, the neutrino, and the (as-yet hypothetical) graviton, that have no electric charge.
Neutrons are stable subatomic particles and do not decay or change into other particles under normal conditions. However, electrons do not undergo nuclear decay but can change in energy levels within an atom.
Electrical charges are sourced from the movement of electrons, which are negatively charged particles found in atoms. When electrons flow through a conductor, such as a wire, they create an electric current and generate electricity.
Electrical charges are associated with the fundamental particles that make up atoms, specifically protons and electrons. Protons carry a positive charge, while electrons carry a negative charge. The movement of these charges creates electric currents and enables the flow of electricity.