it can exist alone as a diatomic molecule eg O2 oxygen
The smallest unit of life that can exist as a separate entity is a cell.
The smallest part of an element that can exist alone is an atom. Atoms are the fundamental building blocks of matter and retain the chemical properties of the element. Each atom consists of a nucleus, containing protons and neutrons, surrounded by electrons. While atoms can bond together to form molecules, a single atom can exist independently.
yes sodiom atom is an isolated one it is the atom of sodium sodium chloride is salt
It wasn't. Lethal amounts of radiation still exist in certain areas.
The smallest particle of an element that can exist either alone or in combination with other elements is an atom. Atoms are composed of protons, neutrons, and electrons.
Electrons are restricted to certain energy levels within an atom because of the quantized nature of energy in the atom. This means that electrons can only exist at specific energy levels, or "shells," and cannot exist between these levels. This restriction is due to the wave-like behavior of electrons and the principles of quantum mechanics.
No it can't. There has to an equal amount of electrons as protons! This atom can't exist.
It varies on the element of the atom.
An atom is a particle, the smallest particle that can exist by itself.
Sort of... The general tendency is for a larger atom to be less stable. Above a certain point (after lead) no stable atoms are known to exist.Sort of... The general tendency is for a larger atom to be less stable. Above a certain point (after lead) no stable atoms are known to exist.Sort of... The general tendency is for a larger atom to be less stable. Above a certain point (after lead) no stable atoms are known to exist.Sort of... The general tendency is for a larger atom to be less stable. Above a certain point (after lead) no stable atoms are known to exist.
No, for all elements the smallest particle that can exist independently is an atom.
Oxygen typically exists as a diatomic molecule (O2) in its natural state. However, it can also exist as a single oxygen atom (O) in certain conditions, such as in the upper atmosphere or during chemical reactions.