the bonds between particles in a liquid are very weak
Yes, it is true.
The weak force is the force of attraction between atoms.
There are weak forces of attraction between particles in a gas, but these forces are generally much weaker than the kinetic energy of the particles themselves. This is why gases have high mobility and tend to fill the space they are confined to.
They are too weak to have an effect at great distrances between gas particles.
No it is not true
Yes, it is true.
The weak force is the force of attraction between atoms.
Scientists can ignore intermolecular forces in a gas under ordinary conditions because gases have weak forces of attraction compared to liquids and solids. The particles in a gas are far apart and move freely, resulting in negligible interaction between individual particles. Hence, the effects of these weak forces are often minimal and can be disregarded for many practical purposes.
Gases consist of freely moving particles due to their high kinetic energy. The distance between gas particles is typically large, and the attractive forces between them are usually negligible. In the gas phase, the kinetic energy of the particles overcomes any weak intermolecular forces that may exist.
There are weak forces of attraction between particles in a gas, but these forces are generally much weaker than the kinetic energy of the particles themselves. This is why gases have high mobility and tend to fill the space they are confined to.
They are too weak to have an effect at great distrances between gas particles.
In a gas, the particles are typically moving at high speeds and are far apart, so the forces of attraction between them are negligible. Interactions between gas particles are more controlled by collisions than by attractive forces.
Particles in a gas have more kinetic energy than in a liquid, allowing them to move more freely and quickly. In a gas, particles are far apart and experience weak intermolecular forces, while in a liquid, particles are closer together and experience stronger intermolecular forces, restricting their movement.
No it is not true
Gases have the maximum intermolecular space among the three states of matter (solid, liquid, gas). This is because gas particles are far apart and have weak forces of attraction between them, allowing them to move freely and occupy a larger volume.
The gas molecules interact with one another
Gas molecules are in constant, random motion with no fixed shape or volume. They fill any container they are placed in and have weak intermolecular forces of attraction. The distance between gas particles is much larger compared to liquids and solids.