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yes. all particles with like charges repel each other.
1) what is electron? 2) what is matter? 3) structure of atom?
All particles exert some kind of force on other particles.
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.
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.
All subatomic particles may suffer changes (if you think to "changes", not to "charges").
yes. all particles with like charges repel each other.
ALL the subatomic particles, protons, neutrons, electrons, quarks, neutrinos, etc.
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.
1) what is electron? 2) what is matter? 3) structure of atom?
The three particles that make up an atom are:electron,proton and neutron. ELECTRON has a negative charge PROTON has a positive charge and NEUTRON has a neutral charge i.e, it contains an equal number of positive and negative charge
yes, the different charges of the atoms and molecules are in constant motion except at absolute zero, where there is no movement at all and life cannot take place.
All particles exert some kind of force on other particles.
Electrons, down quarks, strange quarks, bottom quarks, muon lepton, and tau lepton all have negative charge. Also, the boson can be negative.
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.
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.