It is true that for the same element, the atoms in a gaseous phase of matter will contain more energy per atom, on average, than atoms of the same element in a liquid state. This is because it takes more energy in the system to maintain all of the high-energy collisions that are required to maintain the gaseous state than a liquid state.
Generally, matter in the gas phase is hot and often has more energy (heat).
Think of it in terms of water. Does an ice cube of water or a boiling pot of water have more energy in it's system?
Good luck.
they just randomly bounce around. no specific name for it!
Gas molecules are bouncing around throughout our atmosphere, here on planet Earth. Very few are bouncing around in the vacuum of outer space.
Gas
Bouncing molecules are typical of a gas. Gas can be found pretty much everywhere on the surface of the Earth since we have an atmosphere. So gas molecules are bouncing around in our vicinity, in our rooms, bottles, boxes, you name it.
Fill or Expand.
Atoms and molecules bounce during collisions of any kind when they are in a solid, liquid or gas. The word "bounce" when used to refer to atoms or molecules means that the have a collision that may be considered elastic. This word "bounce" is not especially scientific. Instead one typically hears about colliions and those collisions are termed elastic or inelastic. If two chemical species are involved in a chemical reaction, then when they have a reactive collision, they do not bounce, but they exit the collision changed in some way. They exchange atoms or somehow exit the collision as one or two or more chemical species. Such collisions do not conserve kinetic energy.
The molecules in a gas at 100k
The volume occupied by gas molecules is negligible when compared to volume occupied by the gas.The collisions between gas molecules-gas molecules and gas molecules-walls of the container are perfectly elastic.
Bouncing molecules are typical of a gas. Gas can be found pretty much everywhere on the surface of the Earth since we have an atmosphere. So gas molecules are bouncing around in our vicinity, in our rooms, bottles, boxes, you name it.
The number of gas molecules changes.the number of gas molecules changes
Gas molecules change their motion when they bounce into the surfaces of their containers. If the surfaces absorb the impact, then energy is transfered out of the system and particle speed decreases.
Yes, because the gas molecules in the tennis ball expand. When the molecules expand there energy increases.
1st answer: It has a leak of attractionimproved answer: their molecules have very little attraction for one anotherThe little tiny molecules in the gas have lots of energy, and are whizzing around in side, lets say, a balloon. The molecules bounce of the inside of the balloon, forcing the rubber out. This is why balloons don't collapse after you have blown them up.The force of attraction between gas molecules is low, the density is also low.
Fill or Expand.
They move in a straight line until they hit something and bounce off. Molecules in a gas show random rectilinear motion. This is called Brownian motion
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..
Gas.
Higher temperature results to higher kinetic energy in gas molecules. The gas with more speed would bounce each other a further distance and thus the expansion of gas.
A single molecule will fall to the ground - and then bounce back. The fact is that there are lots of molecules, and they also bounce against each other.A single molecule will fall to the ground - and then bounce back. The fact is that there are lots of molecules, and they also bounce against each other.A single molecule will fall to the ground - and then bounce back. The fact is that there are lots of molecules, and they also bounce against each other.A single molecule will fall to the ground - and then bounce back. The fact is that there are lots of molecules, and they also bounce against each other.
Molecules (almost always, not many atoms can bounce around alone without binding to something).