Gaseous
That would depend more on the temperature, than on the state of matter. At higher temperatures, atoms would move faster. At very high temperatures, such as in the core of the stars, the state of matter is called a "plasma".
Gas is the state of matter with the most space between molecules. The 4th and most abundant state of matter 'Plasma' can be similarly diffuse, mainly as the electrons and protons in space not bound into molecular gas.
Molecule movement is greatest in the gaseous state of matter, where molecules have the most kinetic energy and are able to move freely and rapidly.
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 particles in the GASeous state of matter are the most disorganized.Ur rite it it actually gas. HAHA mf
Gas is actually the least dense state of matter. In a gas, particles are spread out and have high energy causing them to move rapidly and take up a large volume. Solids are the most dense state because their particles are tightly packed together.
plasma
thwe awnser is plasma
Gas.
Gas.
Gases
Particles with the most energy are typically found in the gaseous state. In this state, particles have high kinetic energy and move around rapidly. However, the specific amount of energy can vary depending on the temperature and pressure of the gas.
The state of matter where the particles are locked into a pattern is solid. This is the most sturdy state of matter.
Solids. Solids are the most rigid state of matter, so their particles are always fixed. Liquid particles have more freedom to move about, and gases have the most freedom.
Gas is the state of matter that contains particles that are most widely separated compared to solid and liquid states. Gas particles are free to move independently and occupy the entire volume of the container they are in.
In the gaseous state of matter, the molecules of a substance are most free to move about as there is little attractive forces between the neighboring molecules.
That would depend more on the temperature, than on the state of matter. At higher temperatures, atoms would move faster. At very high temperatures, such as in the core of the stars, the state of matter is called a "plasma".