the negligible volume of a gas means that gas has a volume which is too little
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.
The volume of gas molecules is negligible compared to the total gas volume. Gas molecules themselves occupy a very small fraction of the total volume of the gas, with the majority of the volume being empty space between the molecules.
The kinetic molecular theory for gases does not assume the presence of intermolecular forces between gas particles. It assumes that gas particles are in constant, random motion and that the volume of the gas particles is negligible compared to the volume of the container.
Molar volume is based on the volume occupied by one mole of gas molecules at a specific temperature and pressure. It is a macroscopic property and averages out the effect of individual gas particle size because the volume of the container is much larger compared to the size of gas particles. This allows molar volume to be consistent regardless of the size of the gas particles.
the negligible volume of a gas means that gas has a volume which is too little
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.
The volume of gas molecules is negligible compared to the total gas volume. Gas molecules themselves occupy a very small fraction of the total volume of the gas, with the majority of the volume being empty space between the molecules.
The kinetic molecular theory for gases does not assume the presence of intermolecular forces between gas particles. It assumes that gas particles are in constant, random motion and that the volume of the gas particles is negligible compared to the volume of the container.
Molar volume is based on the volume occupied by one mole of gas molecules at a specific temperature and pressure. It is a macroscopic property and averages out the effect of individual gas particle size because the volume of the container is much larger compared to the size of gas particles. This allows molar volume to be consistent regardless of the size of the gas particles.
Kinetic energy is the energy produced or exerted by an object in motion. The three assumptions are, that there is matter (the object exists), it is moving (in motion), and it is producing or exerting energy.
All gas particles are in constant random motion and collide with each other and the walls of the container. They have negligible volume compared to the volume of the container and exert pressure on the walls of the container due to their collisions. The average kinetic energy of the gas particles is directly proportional to the temperature of the gas.
Noble gases can approach ideal gas behavior at high temperatures and low pressures. Under these conditions, the intermolecular forces become negligible, and the volume occupied by the gas particles themselves is minimal compared to the total volume of the gas. Additionally, noble gases are monatomic, which reduces the complexity of their interactions, further aligning their behavior with the ideal gas law.
The gas phase has negligible interactions between molecules compared to the liquid and solid phases. Gas molecules are far apart and move freely, rarely interacting with each other except during collisions.
One assumption of the kinetic theory of gases is that gas particles occupy a negligible volume compared to the volume of the container. Therefore, the idea that gas particles have significant volume or that they interact through forces that significantly affect their motion would not align with the assumptions of the kinetic theory. Additionally, the assumption that gas particles are in constant random motion contradicts any notion of them being at rest or having fixed positions.
gas particles have little to no attraction for each other and have a negligible (insignificant) volume that needs not to be accounted for
they have no volume and their molecular force of attraction is negligible