Polarizability
Both are non polare and Both have weak attractive forces, thus they can easily leave their own kind to mix with each other. Intermolecular force is only dispersion (London dispersion force). The strength of the London Dispersion Forces (LDF) depends on how easily the electron cloud of an atom or molecule can be distorted or polarized. The closer molecules can approach each other, the stronger the LDF.
The shape of an electron cloud depends on the energy sublevel. Each electron cloud is different, so there is no definitive shape.
The charge of an electron cloud is negative. The electron cloud is made up of electrons, and the electrons are negatively charged. The electron cloud will have a negative charge as well.
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.
5, electron, proton, neutron, nucleus, and electron cloud.
It is a measure of how easily an electron cloud is distorted by an electric field. Electron cloud will belong to atom, molecule or Ion. It is the quantitative measurement of the extent to which the electronic cloud can be polarized
Iodine is a solid because it is a large molecule that allows the electron cloud to be easily distorted to generate dipole moments allowing the molecules to attract each other significantly.
Polarity
Both are non polare and Both have weak attractive forces, thus they can easily leave their own kind to mix with each other. Intermolecular force is only dispersion (London dispersion force). The strength of the London Dispersion Forces (LDF) depends on how easily the electron cloud of an atom or molecule can be distorted or polarized. The closer molecules can approach each other, the stronger the LDF.
An electron cloud is an atomic orbital.
Cloud...
Cloud...
Electrons are constantly moving around the molecule. The dipole moment is just an average or where the electron cloud most likely to be if you were to freeze the molecule.
Scientist use the electron cloud model to represent an atom.In the electron cloud model, an atom has two distinct regions-the nucleus and the electron cloud.
I think the word you're looking for is "electron cloud". That term already describes where electrons are found. It would be kind of silly to define "electron cloud" in such a way that it describes an area where electrons are not found, wouldn't it?
nucleus is in the middle and the electron cloud is around it
An electron cloud is made up of protons and neutrons.