Well, this could be 2 things, a solid or a property called density. Solids are tightly packed atoms, while Density is how packed the atoms are.
Atoms are most tightly packed in the solid phase.
The density of a material is affected by the weight of its atoms and how closely they are packed together. Heavier atoms will increase the density, while atoms packed closely together will also increase the density of the material.
most likely NO
The elemental sample that would contain atoms most closely packed together is typically a metal in its solid state, especially those with a face-centered cubic (FCC) or hexagonal close-packed (HCP) structure. Examples include metals like gold, silver, and platinum, where the atomic arrangement maximizes density. In these structures, atoms are tightly packed, minimizing empty space and allowing for strong metallic bonding.
tightly packed atoms
Atoms are most tightly packed in the solid phase.
Solid !
it is packed 900 demerios
The density of a material is affected by the weight of its atoms and how closely they are packed together. Heavier atoms will increase the density, while atoms packed closely together will also increase the density of the material.
most likely NO
atoms
The elemental sample that would contain atoms most closely packed together is typically a metal in its solid state, especially those with a face-centered cubic (FCC) or hexagonal close-packed (HCP) structure. Examples include metals like gold, silver, and platinum, where the atomic arrangement maximizes density. In these structures, atoms are tightly packed, minimizing empty space and allowing for strong metallic bonding.
matter
Atoms are most tightly packed in solid matter, where they are held in a fixed position and are in close proximity to each other.
Atomic density measures how tightly atoms are packed together in a certain space. It is calculated by dividing the total number of atoms by the volume they occupy. The higher the atomic density, the more closely packed the atoms are.
Tightly packed
tightly packed atoms