If you mean the smallest particle of water that has the properties of water, then yes, water particles are molecules.
No, particles in a liquid move at different speeds due to various factors like temperature, pressure, and interactions with other particles. This results in a constant and random motion known as Brownian motion.
No, gas, liquid, and solid particles do not have the same weight. The weight of a particle is dependent on its mass, gravity acting upon it, and its volume. Gas particles have the least weight as they are highly spread out, while solid particles have higher weight due to their compact structure.
During condensation, the gas particles lose energy and slow down, causing them to come closer together. At this point, not all gas particles have turned into liquid; there are still some gas particles that have not lost enough energy to condense. This process continues until all the gas particles have condensed into a liquid state.
As the ice cube is solid , the particles are tightly packed together but as it melts it changes to a liquid so the particles change so that they are like particles in a liquid. the mass is conserved ( stays the same)
Liquid a, with stronger intermolecular attractions, will have a higher viscosity compared to liquid b due to the greater resistance to flow caused by these interactions. Viscosity is a measure of a liquid's resistance to flow and is influenced by the strength of intermolecular forces within the liquid.
They are all made of matter; just in different states.
No, particles in a liquid move at different speeds due to various factors like temperature, pressure, and interactions with other particles. This results in a constant and random motion known as Brownian motion.
No, gas, liquid, and solid particles do not have the same weight. The weight of a particle is dependent on its mass, gravity acting upon it, and its volume. Gas particles have the least weight as they are highly spread out, while solid particles have higher weight due to their compact structure.
During condensation, the gas particles lose energy and slow down, causing them to come closer together. At this point, not all gas particles have turned into liquid; there are still some gas particles that have not lost enough energy to condense. This process continues until all the gas particles have condensed into a liquid state.
There is no new substance; it is just mixed up and all the atoms are spread out so you can't see the individual particles.
All particles of all things are in constant motion. Particles in a liquid collide, but the rate is subdued by the viscosity of the liquid.
The particles of a liquid retain the same volume but are not fixed in place. As they retain the same volume no matter what container they are in, it is possible to pour juice into a glass without the particles dispersing as the particles of a gas would. Because the particles of a liquid are not fixed in place, as in a solid, the liquid can flow and fit itself to the shape of the glass.
A liquid have random particles but they are still all joined together.
A liquid have random particles but they are still all joined together.
Solid particles have the least kinetic energy, followed by liquid particles, and then gas particles. In solids, particles vibrate in fixed positions with minimal movement, while in liquids, particles have more energy and can move around each other. Gas particles have the highest kinetic energy, as they move rapidly and have more freedom of motion.
As the ice cube is solid , the particles are tightly packed together but as it melts it changes to a liquid so the particles change so that they are like particles in a liquid. the mass is conserved ( stays the same)
Surface tension.