Particles completely separate from each other when the attractive forces between them are overcome by the thermal energy in the system. This typically occurs at the boiling point of a substance, when the intermolecular forces are fully disrupted and the particles transition from a liquid to a gas phase.
In the gas state of matter, particles are bouncing off each other.
True. Adding heat to a gas increases the kinetic energy of its particles, causing them to move faster and spread out further from each other. This can lead to the gas expanding and its particles separating.
False. While solid particles maintain a fixed position relative to each other, they do vibrate around their equilibrium positions due to thermal energy. This vibration occurs even in solids at absolute zero temperature, albeit at minimal levels. Thus, solid particles are not completely still.
When positively charged particles and negatively charged particles attract each other, the substance is electrically neutral. This is because the positive and negative charges balance each other out, resulting in no overall charge.
Particles in a liquid can slide past each other but are still packed together.
Gas. Gas particles have a lot of kinetic energy, allowing them to move freely and quickly in all directions, leading to a complete separation from each other.
Molecules in a liquid can move past each other, if that's what you were trying to ask; I'm not sure what "separate past each other" is supposed to mean.
In the gas state of matter, particles are bouncing off each other.
No - they are two completely separate companies. They have no links with each other whatsoever.
no you can still continue playing both games as they are completely separate from each other!
When the forces attracting solvent particles to each other are broken, solute particles provide energy in the form of heat to help the solvent particles separate. This process is called dissolving, and it results in the solute particles becoming evenly distributed in the solvent to form a solution.
All the oceans connect to each other. Most lakes are completely enclosed, and are separate from other bodies of water.
No, they are completely separate applications that can't affect each other in any way.
Being positively charged, particles protons should repel each other but they are held together in the nuclei of atoms.
Gasses do not have a fixed shape or volume, as the particles are not connected to one another. So they spread out, and move away from each other, completely filling its container.
Gasses do not have a fixed shape or volume, as the particles are not connected to one another. So they spread out, and move away from each other, completely filling its container.
When photons collide with each other or with other particles, they can either scatter off each other, be absorbed by the particles, or create new particles through processes like pair production.