no it's mostly filled with empty space.
Atoms. The nucleus of an atom (containing protons and usually neutrons) is small and dense. Electrons can be considered to be a comparatively big cloud surrounding the nucleus of an atom. In this sense, atoms are tiny but mostly contain space.
the one that is completely filled
No, most of an atom's volume is actually empty space. The nucleus of an atom, which contains the protons and neutrons, makes up a very small portion of the total volume. The rest of the space is occupied by the electrons, which move around the nucleus in specific energy levels.
Empty space - there is a hypothetical probability that the spaces between stellar objects can be filled with "dark matter".
Matter is mostly made of atoms, which are composed of protons, neutrons, and electrons. The protons and neutrons make up the nucleus of the atom, while the electrons orbit around the nucleus. The specific arrangement and quantity of these particles determine the properties of different types of matter.
In a silicon atom, there are four filled orbitals. Specifically, there are two filled in the 1s orbital and two filled in the 2s orbital.
It is filled mainly with space.. Atoms are extremely spread out as they have different shells containing electrons. The middle is made up of tightly compressed protons and neutrons while the outside shells are made up of spread out electrons.
A completley filled out electron level makes the atom stable
a happy atom is an atom with all its electron shells completely filled
A neutral xenon atom would have 54 electrons filled in its electron shells.
The empty space within an atom is not truly "empty" but is occupied by the nucleus and electrons. These particles interact through electromagnetic forces that repel other matter from moving through the space inside an atom. The forces between the particles maintain the structure and integrity of the atom.
Mostly water.