if you mean plasma as in blood plasma then i don't believe so because blood plasma is a liquid and gas is, well, a gas. if you mean plasma as in particles heated to the point they move into a stat called the plasma state then yes. plasma particles move faster than any gas particle. period.
Molecules actually move faster in liquid because they have more space between them to move about. That's why liquid can flow, and a solid cannot. =)
hot water molecules move faster with food coloring.you can experiment it with the help of following steps:-Fill the glasses with the same amount of water, one cold and one hot.Put one drop of food coloring into both glasses as quickly as possible.Watch what happens to the food coloring.If you watch closely you will notice that the food coloring spreads faster throughout the hot water than in the cold. The molecules in the hot water move at a faster rate, spreading the food coloring faster than the cold water molecules which mover
The molecules of a gas move faster at higher temperatures, which therefore speeds up diffusion.
If you have the same volume of both then there are in cold water more molecules.
Particles move most rapidly in stream rather than in boiling water.This is because the molecules of gases are loosely arranged than the molecules of liquids.So there will be more free space for the molecules to move in gases than in liquids.
they get exited and move faster than cold molecules
Molecules actually move faster in liquid because they have more space between them to move about. That's why liquid can flow, and a solid cannot. =)
Molecules in a liquid move faster than in a solid because the intermolecular forces in a liquid are weaker, allowing molecules to move around more freely. In a solid, molecules are held tightly in a fixed position by strong intermolecular forces.
Yes, hydrogen diffuses faster than methane. The hydrogen molecule, H2, is the smallest of all molecules and it is considerably smaller than the methane molecule, CH4. Smaller molecules move faster, and therefore diffuse faster, at any given temperature, than larger molecules.
Brownian motion. Molecules move faster as things warm up. When the molecules move faster around the tablet, more of the tablet is disturbed, and therefore, dissolves quicker.
Molecules in a refrigerator move faster than in a freezer because the temperature in a refrigerator is warmer than in a freezer. The higher temperature in a refrigerator causes molecules to have more kinetic energy and move at a faster pace compared to those in a freezer.
In hot water the water molecules are moving at a faster rate than they move in cold water. The faster moving molecules hit the salt molecules with greater force and knock them away from the other salt molecules faster. That way the salt molecules dissolve in the water quicker.
Like all molecules, a molecule of H20 is in constant motion; 'hot' molecules move faster than 'cold' molecules. If the molecules move slowly enough the substance appears stationary to us (frozen water) and if they move quickly enough they will expand to fill their container (vapor or gas water.)
In warm objects, molecules move faster and have higher kinetic energy compared to molecules in cooler objects, which move more slowly with lower kinetic energy. This increased movement in warm objects leads to higher temperatures and faster chemical reactions.
The property of solvent determines the rate of migration of solute i.e., if the solvent is nonpolar, nonpolar molecules will move faster and if the solvent is polar, than polar molecules will move faster during separation.
The water molecules in warm water have greater kinetic energy, making them move faster.
Molecules of gas have higher average kinetic energy compared to molecules in liquids, which allows them to move at faster speeds. Additionally, gases have greater spacing between molecules and weaker intermolecular forces, leading to more frequent collisions and higher velocities in gases compared to liquids.