Matter that has a definite shape and volume is in solid state.
Solid !
Solid state. In a solid, molecules are closely packed together in a fixed arrangement, which results in a rigid structure.
In the solid state, the particles are most tightly connected. The particles in a solid are closely packed and vibrate in fixed positions, giving solids a definite shape and volume.
The state of matter that fits this description is a solid. In a solid, the particles are tightly packed and arranged in a fixed position, resulting in a definite shape and volume. The strong intermolecular forces between the particles prevent them from moving freely.
Solids have a fixed shape and volume, making it difficult for them to mix as their particles are tightly packed and have limited mobility. In contrast, gases and liquids are more mobile with particles free to move around, allowing for easier mixing due to their fluid nature. Additionally, gases and liquids have the ability to flow and fill the space of their container, promoting mixing.
Solid !
Atoms are most tightly packed in the solid phase.
sequence together.
Atoms are most likely packed in a closely packed arrangement, such as a face-centered cubic (FCC) or a hexagonal close-packed (HCP) structure. These arrangements allow for efficient packing of atoms with minimal empty space between them.
Solid state. In a solid, molecules are closely packed together in a fixed arrangement, which results in a rigid structure.
In the solid state, the particles are most tightly connected. The particles in a solid are closely packed and vibrate in fixed positions, giving solids a definite shape and volume.
Solids have tightly packed atoms so there is no space for the atoms to mingle. But in liquids/ gases, the atoms are more spread out and more free to move hence allowing the atoms to mingle.
Tightly packed cells
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.
The solid state of matter is most resistant to compression because the particles are tightly packed together and have minimal space to move. This makes it difficult to compress solids compared to liquids and gases.
solid being the most packed :---------------------------------------- liquid being less packed then the solid: - - - - - - - - - - - - gas being less packed then the liquid: - - - - - - The dashes are to give an idea of how tight the particles packed -.-
The ones with less air pockets and are tightly packed.