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They do attract, but they will not collide because the probability of finding an electron in the nucleus approaches zero as the distance from the nucleus approaches zero.
The electron cloud is a volume of space around an atomic nucleus. It comprises of a space of probability. It is the volume of space where electrons can "probably" be found, or have a probability of being found.
The electric cloud is the probability of where you can find an electron.
This is the electron cloud.
It is impossible to know exactly where an electron is. Thus, the size of an electron cloud can be given only in terms of probability. Even then, the size of the electron cloud depends on how many electrons an atom possesses.
The electron cloud. The atomic radius roughly describes the distance from the nucleus to the electron cloud.
They are the probability of finding the electrons.
They do attract, but they will not collide because the probability of finding an electron in the nucleus approaches zero as the distance from the nucleus approaches zero.
the distance from the nucleus at which the electron is most likely to be found
The electron cloud is a volume of space around an atomic nucleus. It comprises of a space of probability. It is the volume of space where electrons can "probably" be found, or have a probability of being found.
NON-POLAR BONDING results when two identical non-metals equally share electrons between them.
It would not depend on the direction with respect to the nucleus. The direction of the electron has no effect on the distance of the electron from the nucleus.
The electric cloud is the probability of where you can find an electron.
The electron shell is an energy level represented as the distance of an electron from the nucleus of the atom
orbits are like energy levels where probability of finding electron is maximum
electron cloud
Electrons, which are a type of fermion, orbit the nucleus of atoms. Remember, though, that they do not actually orbit or "move around" the nucleus, but instead are in a superposition of states, which we usually describe as an electron density, or the probability of locating an electron at a certain distance and time.