Yes they do, and in gases even faster than in liquids.
In solids they only vibrate, maybe rotate a bit, but they don't move (from place to other place) like they can do in liquids.
of course
this is because the the particle in liquid have lower attraction force between particle compared to solid
Kinetic energy is the energy of motion. Atoms or molecules of a solid are tightly constricted and can really only vibrate a little, so they have very littel kinetic energy. Liquids can flow, so those atoms/molecules have a little kinetic energy, and the molecules with the most kiinetic energy are those in gases.
Alpha particles with the same energy as beta particles have much less speed, magnetic field or no.
Particles in a solid are closer together and lower in energy than those in a liquid. The closer together particles are, the less they move. Since the amount of motion directly corresponds to the internal energy, a substance with closer particles will have less internal energy. When particles are close together and move less, the structure is more stable than when they move around more freely. Therefore a solid, which is very stable, has closer particles and less energy than a liquid, which is less stable, which in turn has closer particles and less energy than a gas, which is very unstable in its structure.
Particles in a liquid have only a small amount of space between each other. They have more energy then solid particles but less energy than gas particles. Particles in liquid roll over each other this is what causes water to flow.
this is because the the particle in liquid have lower attraction force between particle compared to solid
Kinetic energy is the energy of motion. Atoms or molecules of a solid are tightly constricted and can really only vibrate a little, so they have very littel kinetic energy. Liquids can flow, so those atoms/molecules have a little kinetic energy, and the molecules with the most kiinetic energy are those in gases.
If the temperature of a liquid is less than its boiling point then the average kinetic energy of the particles in the liquid will be less than the energy required to escape the liquid. However, particle energies will vary and some higher energy particles will be able to escape the liquid. This is called evaporation. On the other hand if the average kinetic energy of particles in the liquid is sufficient for the particles to escape the liquid then the process is called boiling. So the boiling point of a liquid is defined to be the temperature such that atoms in the liquid have, on average, sufficient kinetic energy to escape the liquid. More importantly, last week I got stuck behind my fridge and had to stay there overnight.
Alpha particles with the same energy as beta particles have much less speed, magnetic field or no.
Particles in a solid are closer together and lower in energy than those in a liquid. The closer together particles are, the less they move. Since the amount of motion directly corresponds to the internal energy, a substance with closer particles will have less internal energy. When particles are close together and move less, the structure is more stable than when they move around more freely. Therefore a solid, which is very stable, has closer particles and less energy than a liquid, which is less stable, which in turn has closer particles and less energy than a gas, which is very unstable in its structure.
The colder a particle is, the less energy it has and the slower it moves.
Particles in a liquid have only a small amount of space between each other. They have more energy then solid particles but less energy than gas particles. Particles in liquid roll over each other this is what causes water to flow.
a wavelength can be add to a sound particle that couses a high vibration.particles are always moving and this means no matter if it's a solid, liquid, or gas, it will always have particles moving. Particles in a soild only vibrate because they have less kinetic energy.
Each particle bumps into another particle, transferring the energy. The particles themselves return more or less to their original position - exactly to their original position in the case of a solid.
When a gas is cooled the individual particles of the gas lose energy. As this energy is lost these particles start slowing down as they flow less. Once they have lost sufficient energy the particles come close enough together that they can be perceived as a liquid.
Have less kinetic energy
No, some will have more and some will have less energy than the average and the energy that a particular particle has will change with time as it bumps into other particles.