I am not quite sure what you mean with "not connected"; the electron is attracted, via the electrical force, to the nucleus. This is the "connection" that keeps it there - as long as there is no stronger force to pull it away.
They are not in the nucleaus, they orbit around the nucleus.
Electrons. They have a negative charge.
Protons and neutrons are located within the nucleus. Electrons are revolving around the nucleus.
No, it is not possible to stop the electrons from revolving around the nucleus unless they are stripped off from the nucleus.
Electrons are around the nucleus. Protons and neutrons are in the middle.
Assuming that by nucleus you refer to an atom the particles circling the atoms center (protons and neutrons ) are called electrons.
Electrons surround the nucleus of an atom. The classical model shows them circling but in fact, their position and path is more complicated. The nucleus is made up of protons and neutrons. Protein is a molecule, not a component of atoms.
Magnetism is produced through electric currents. In the case of a permanent magnet, it is the electrons circling around the atomic nucleus that produces the magnetism (more atoms have one orientation than the opposite orientation).Magnetism is produced through electric currents. In the case of a permanent magnet, it is the electrons circling around the atomic nucleus that produces the magnetism (more atoms have one orientation than the opposite orientation).Magnetism is produced through electric currents. In the case of a permanent magnet, it is the electrons circling around the atomic nucleus that produces the magnetism (more atoms have one orientation than the opposite orientation).Magnetism is produced through electric currents. In the case of a permanent magnet, it is the electrons circling around the atomic nucleus that produces the magnetism (more atoms have one orientation than the opposite orientation).
Bohr's models represent the structure of the atom, as he idealized. In the middle we would have a circle representing the positively charged nucleus. Then, circling around the nucleus in specific orbits we would have the negatively charged electrons, like the planets circling around the sun, but with electromagnetic forces instead of gravitational.
In this model, the electrons move or orbit around the protons that are at the center of the atom. Electrons move around the nucleus, which contains the proton, in orbits that have a definite size and energy.
They are not in the nucleaus, they orbit around the nucleus.
Electrons. They have a negative charge.
No, the electrons are around the nucleus, not in the nucleus.
No, electrons are around nucleus but at a great distance.
The particle that "circles" the center of an atom is an electron. (In reality, electrons act more like waves vibrating around an atom that particle circling an atom.) (Both neutrons and protons make up the center of an atom, neutrons have no charge and protons a positive one.)
There are no electrons in the nucleus of an atom, the electrons are in the orbitals around and outside the nucleus.There are no electrons in the nucleus of an atom, the electrons are in the orbitals outside and around the nucleus.
nuetrons and protons make up the nucleus, Electrons revolve around the nucleus