It is a surface of constant probability i.e. an electron is just as likely to be found in a small volume anywhere around this surface.
Energy sublevel
Shapes of electron orbitals are determined by azimuthal quantum number.
The energy sublevel.
energy sublevel
It is mostly related to the energy of the electron.
the electron cloud is least dense where the probability of finding an electron is LOWEST
The electron cloud model best describes the organization of electrons around the nucleus of an atom.
electron cloud
18
The energy sublevel.
The shape of the electron cloud is determined by the secondary quantum number. The first is n, or the energy level, the second is the sublevel, the third is the specific cloud, and the fourth is the spin.
The shape of an electron cloud depends on the energy sublevel. Each electron cloud is different, so there is no definitive shape.
Electron cloud
It can be determined by the size of it's electron. The reason for this being is because of the mass that is calculated by the protons to the neutrons of the atoms within the nucleus.
mass i think
The physical size of an atom is largely determined by the size of the electron cloud.
The magnitude of the desperation force for an element is determined by the size of the electron cloud. The larger the electron cloud the greater the magnitude. Another factor is shape the more surface area a molecule has the larger the magnitude of the desperation force.
This refers to the shape of the electron orbitals, which are often thought of as clouds of electronic charge.
It is mostly related to the energy of the electron.
The quantum number that indicactes the shape of an orbital in called the angular momentum quantum number.
This question doesn't technically have an answer. The electron cloud simply surrounds the nucleus and contains the electrons. Each atom of different elements has a different number of protons. It is not determined by the electron cloud. An electron cloud doesn't have a nucleus as the question implies either. An electron cloud odes not contain protons either. Just electrons, as the name suggests.