weak nuclear force
Electrons travel in specific energy levels around the nucleus of an atom. These energy levels are known as electron shells, and electrons move within these shells in a kind of "cloud" around the nucleus.
The space around the nucleus of an atom is called the electron cloud. The electron cloud is the space in which the electrons of that atom travel. Compared to the nucleus, the electron cloud is enormous.
Electrons travel in orbitals around the nucleus of the atom
Electrons orbits around the nucleus, which have neutrons and protons. When there is an imbalance of protons and electrons, it creates a static electricity. What I am trying to say is, nothing really special happens.
The nucleus contain protons and neutrons; these particles are also composed from quarks and gluons. Shells are the location of electrons.
The force that keeps electrons in orbit around the nucleus is called the repelling force of gravity. If there was no gravity the electrons would never stay in orbit but would be floating around in space.
No, but the do orbit in a certain shell.
The nucleus is made up of protons and neutrons; the electrons form electron shells around the nucleus.
J.J Thompson
No. Electrons travel at will in Electron clouds, At first we thought they were in definite pathways, but they don't. Though Bohr's model is used so we can know roughly how many electrons are in an energy level.
Bohr's model describes an atom as small, with a positively charged nucleus surrounded by electrons that travel in circular orbits around the nucleus
In Bohr's model, electrons orbit the nucleus in specific energy levels or shells. Electrons can only exist in these quantized energy levels, and they move between them by absorbing or emitting energy. The energy of an electron is lower when it is closer to the nucleus and higher when it is farther away.