Of course not. Gas particles have much more energy than liquid particles. They do not have any forces of attraction between them and n move randomly from one place to another at very high speeds. That is why when a perfume is spraid the smell gets from one part of the room to the other quite rapidly. Liquid particles still have forces of attraction between them. They move randomly but within the liquid.
Generally particles in gases move faster than that of particles in a liquid. Here is just a simple and quick answer why; We know of the three most common(ly known) forms of matter on earth. There is solids, liquids and gases. A solid has the lowest energy state, and a gas has the highest in respect to these three states of matter. We can understand this by this analogy: Take a few ice cubes and put them into a frying pan. The ice cube is an example of the solid state of water. As you heat the pan and in turn heat the solid water, you are transferring energy from the heat source to the water. When the solid water has enough energy from the heat, it turns into liquid water. Now if you continue to heat the water it will begin to boil and evaporate into a gas (water vapor). During this process you are increasing the energy state of the water as you apply more heat. Now, heat is by itself a form of energy. When we measure heat we are measuring the kinetic energy of the atoms/molecules within what we are measuring. The higher kinetic energy, the higher the temperature. Kinetic energy in basic form is calculated by the formula "Ke = (m*V^2)/2". Whereas 'm' is the mass of an object and 'v' is the velocity. The mass remains constant when you apply heat energy to something, so the only other variable to change is the velocity to balance the equation. From this we can see that higher physical states, such as a gas in this case, the particles move faster than in lower states such as liquids or solids.
No, in a gaseous phase of a substance the molecules have more energy than the molecules in its liquid phase. As they have more energy they move faster.
Yes. They are slower and have less energy.
yes because if the gas is cold it moves slowly
yes :)
yes
icles move faster as they have now become lighter.
the particles in gases move very, very fast
do particles move faster as a liquid or a gas
Gas particles, like the particles in all states of matter (solid, liquid, gas) are always moving apart and colloding with other particles. Gas particles have more space in between and tend to move faster than the particles in a solid or liquid state. Temperature only affects how fast a particle moves, therefore warm air makes gas particles move faster and cold air makes gas particles move slower.
Particles generally move faster in a gas compared to a liquid. In a gas, particles have more energy and move more freely and quickly as they are not as tightly packed as in a liquid. Conversely, in a liquid, particles are closer together and interact more, resulting in slower movement.
Gas particles are in a permanent and chaotic motion.
all particles are always moving
The will move more slowly,
The will move more slowly,
Gas particles move very fast because the particles are separated and have enough space to move around.
icles move faster as they have now become lighter.
Solid - Particles vibrate and rotate about a fixed position and do not diffuse measurably Liquid - Particles move freely in all directions slowly and diffuse slowly Gas - Particles move freely in all directions rapidly and diffuse rapidly
the particles in gases move very, very fast
...Liquid. Everything in the world is a liquid, solid or a gas. In a Solid the particles are very close together and the particles can't move very easily. In a Liquid the particles are a bit more free they are less cramped together. In a Gas there are not many particles so they can move very freely.
do particles move faster as a liquid or a gas
No. Gas particles move much faster than solid particles.
Liquid's particles are much more organized than a gas. Gas particles will move around with very high speeds resulting in pressure.