A Neutron - The nucleus of an atom consists of a number of protons and neutrons - with electrons 'orbiting' the nucleus like tiny planets.
neutron
This elementary particle is the electron.
Electrons are small particles that move outside the nucleus of an atom and carry a negative charge. They play a key role in chemical reactions and the behavior of atoms.
A electron is a subatomic particle outside the nucleus carrying a negative charge and very little mass. Other mass is negligible mass or a negative charge.
a neutron, a proton is positively charged and an electron is negatively charged :)
neutron
This elementary particle is the electron.
nucleus
These particles are called electrons, have a negative charge and a very small mass.
Electrons are small particles that move outside the nucleus of an atom and carry a negative charge. They play a key role in chemical reactions and the behavior of atoms.
I would say a neutrino, because its charge is zero. ------------------------------------------------------------------------ Neutrino is not considered as a subatomic particle. Proton (positively charged) and electron (negatively charged) have very small electrical charge.
A electron is a subatomic particle outside the nucleus carrying a negative charge and very little mass. Other mass is negligible mass or a negative charge.
The electron is not a chemical element: it is a small elementary particle with a negative electrical charge.
a neutron, a proton is positively charged and an electron is negatively charged :)
The small particle that is negatively charged inside an atom is called an electron. Electrons orbit the nucleus of the atom, which is composed of positively charged protons and neutral neutrons. This negative charge of electrons helps balance the positive charge of protons, contributing to the overall stability of the atom. Electrons play a crucial role in chemical bonding and electrical conductivity.
nuciels
Correct, due to the massive size of the gold nucleus compared to the size of the incoming particle, the particle will not experience a large deflection in a head-on collision. This is because of the concentrated positive charge in a small space in the gold nucleus that causes a very strong Coulomb repulsion when the incoming particle gets close to it.