Gas molecules are far apart in which layer
The layer of the atmosphere with the least amount of air pressure is the exosphere, which is the outermost layer of Earth's atmosphere. It is composed of very thin air molecules spread far apart, resulting in extremely low air pressure.
Gaseous.
In a solid, the molecules are very close and compact with very no space to move around. In a liquid the molecules have little space to move around, and in a gas, the molecules are very spaced out. The gas molecules move around a lot because they have so much space between and around them. Hope this helped..
Gases are the only ones that are compressible in fact. They are compressible because the atoms in gases are very far apart, and when you compress them, their atoms can fill up these spaces.
When warm air molecules move farther apart, the air becomes less dense because there is more space between the molecules. This causes the warm air to rise, as it is lighter than the surrounding cooler air. As the warm air rises, it cools and can lead to cloud formation and possibly precipitation.
because the molecules are so far apart.
In a gas, molecules are relatively far apart and have the energy to move quickly.
gas
yes. they are also light molecules.
Liquid molecules are spread out. Solid molecules are close together. And gas molecules are far apart.
The state of matter in which molecules are generally far apart and moving randomly is known as the gaseous state. Steam is an example of a gas.
yes
Gas molecules are far apart and have high kinetic energy, allowing them to be compressed into a smaller volume.
The space between the molecules/atoms determines whether material is a solid or a gas. If they are very far apart, the matter is a gas. If they are not very far apart, the matter is a liquid. If they are close, it is a solid.
Solid- Close together Liquid- Bit farther apart Gas- Far apart
Gases have molecules that can spread far apart to fill any shape or container. The particles in a gas are in constant random motion, allowing them to quickly fill the available space.
A gas can be compressed because its particles are far apart and have high kinetic energy, enabling them to move closer together when pressure is applied. Compressing a gas reduces the volume it occupies, increasing the density and pressure.