In a solid particles vibrate and stay in one spot, however due to vibrating, they may move slightly. In liquids, they bounce around in a small area relitvly close to their "spot". In a gas, particles bounce around freely, moving around all of the given space. To relate , a solid's particles are like vibrating cell phone, staying in place. However gas's are like bouncy ball enclosed in a jar
In a liquid, particles are close together but have more freedom of movement than in a solid. The particles in a liquid are constantly moving, sliding past each other, and are not arranged in a fixed pattern like in a solid.
As a substance changes from a liquid to a gas, the particles move further apart and gain more kinetic energy, leading to increased randomness and higher speed of movement. In contrast, as a substance changes from a solid to a liquid, the particles gain enough kinetic energy to overcome their fixed positions in a crystal lattice and begin to slide past one another, resulting in a less ordered arrangement and increased freedom of movement.
The tiny particles in a solid are closest together, followed by those in a liquid, and then those in a gas. In a solid, the particles are tightly packed and have little space to move, while in a liquid, particles are more spread out but still close together. In a gas, particles are farthest apart and have more freedom of movement.
The general classes of colloids are sols (solid particles dispersed in a liquid), gels (cross-linked networks of solid particles dispersed in a liquid), and emulsions (liquid droplets dispersed in another liquid).
In a liquid, particles are more loosely packed and able to move past each other, whereas in a solid, particles are tightly packed and vibrate in fixed positions. The intermolecular forces in a liquid are weaker than in a solid, allowing the particles to flow and take the shape of their container.
The movement of a molecule's particles in a solid move much less and are more structured than a liquid, and a liquid's particles move less than a gas.The movement of a molecule's particles of solid move much less and are more rigid than liquid, and liquid more so than a gas.
The movement of a molecule's particles in a solid move much less and are more structured than a liquid, and a liquid's particles move less than a gas.The movement of a molecule's particles of solid move much less and are more rigid than liquid, and liquid more so than a gas.
The movement of a molecule's particles in a solid move much less and are more structured than a liquid, and a liquid's particles move less than a gas.The movement of a molecule's particles of solid move much less and are more rigid than liquid, and liquid more so than a gas.
gliding movement. The particles move faster then that of a solid, but slower than that of a gas.
the distance between the particles and the average kinetic movement of the particles.
In a liquid, particles are close together but have more freedom of movement than in a solid. The particles in a liquid are constantly moving, sliding past each other, and are not arranged in a fixed pattern like in a solid.
They slowed down..
They are tightly packed and vibrate.
Gas > Liquid > Solid. Gas particles have the highest kinetic energy and move freely, while liquid particles have less kinetic energy and move more slowly. Solid particles have the least kinetic energy and vibrate in place.
The movement of particles in a hard stick of butter are solid. Their not moving. While the movement of particles in a melted sick of butter are liquid. They are moving.
As a solid changes into a liquid, the particles gain energy and start to vibrate more rapidly and in a less ordered manner. This increased movement causes the particles to break free from their fixed positions, allowing them to flow past each other, resulting in the transition from a solid to a liquid state.
When a solid transitions to a liquid, the particles gain more energy and begin to move more freely. This increased movement disrupts the regular vibrational pattern of the particles in the solid state, causing the vibration to increase in a liquid.