In microscopic scale such as gas particles, more energy is more to particles kinetics, it will move faster and bounce on surface at faster rate. It will resulted to higher pressure or more volume from expansion or the increase of temperature or all of 3 combined.
Well, for atoms to stop moving, the temperature would have to be at 0 K, aka absolute zero. However, that's theoretically impossible. Anyway, solid molecules barely move, "vibrating" against each other in a tightly packed space. For liquid molecules, they can slide past each other and move about, but there's not much space between the particles. As for gas, the particles are much faster than particles of solid or liquid, and the particles move about freely, bumping into each other. If you want more info on the 3 states of matter, here's a great web for you to start with http://www.chem.purdue.edu/gchelp/atoms/states.html
Of the 3 more common phases of matter, solid, liquid and gas, gas is always the least dense because the particles are not as close together.
They are made of gas, obviously, and not dirt; They all contain rings; they have deep, massive, atmospheres.
There are 2 types of fluids. Gas and Liquid.The process in which a liquid changes into a solid is called freezing. The particles loses kinetic energy, therefore the forces of attraction at the nucleus of the particles pull the particles more closely together. When a liquid changes completely into a solid, the particles will be very closely packed, and cannot move freely at all. An example would be the freezing of water into ice.The process in which a gas in changed to a solid is called desublimation, or deposition. Most elements have 3 states of matter (solid, liquid, gas). With that said, a gas usually condenses (loses kinetic energy, the particles becomes more closely packed) to become a liquid, before undergoing the freezing process to change into a solid. However, some elements can skip the liquid phase and directly become a solid. This is affected by the pressure exerted on the gas. Under high pressure, water vapour for example can desublime into ice without first becoming water. This is how snow is formed.
In microscopic scale such as gas particles, more energy is more to particles kinetics, it will move faster and bounce on surface at faster rate. It will resulted to higher pressure or more volume from expansion or the increase of temperature or all of 3 combined.
In microscopic scale such as gas particles, more energy is more to particles kinetics, it will move faster and bounce on surface at faster rate. It will resulted to higher pressure or more volume from expansion or the increase of temperature or all of 3 combined.
1) you increased the number of moles of gas 2) you increased the number of atoms or molecules 3) you go from solid to liquid, or liquid to gas really if you see disorder, or kinetic energy, or particles, increasing, you can call that an increase in entropy.
what are 3 ways to move an injured person
Gravity is the force caused by the collision of particles.
Yes, particles in a liquid do move faster than particles in a solid.Here is a list from slowest moving particles to fastest:solids (compact particles with little movement: vibrations.)liquids (lightly compact particles, which move around freely over one another.)gasses (particles are not compact and spread evenly apart as far as possible.)plasma (particle much like gas, more extreme. Plasma particles only occur at very high temperatures.)
conduction,radiation,convection
no because remember a solid has the particles VERY packed together. So it enables no movement, it cannot adapt if it was put into a round container. Liquid can to some degree shift and be evened out in a container. Gas has very loose particles and can spread out widely in a container, as it effectively has no boundaries. Apex=True
Well, for atoms to stop moving, the temperature would have to be at 0 K, aka absolute zero. However, that's theoretically impossible. Anyway, solid molecules barely move, "vibrating" against each other in a tightly packed space. For liquid molecules, they can slide past each other and move about, but there's not much space between the particles. As for gas, the particles are much faster than particles of solid or liquid, and the particles move about freely, bumping into each other. If you want more info on the 3 states of matter, here's a great web for you to start with http://www.chem.purdue.edu/gchelp/atoms/states.html
To less concentrated areas
3 ways, solid, gas, and liquid.
3.Suspension,compresion,and tension