As a liquid, the molecules are more randomly arranged and the molecules are able to slide past each other. As energy is added, the motion of the molecules increases and begins to overcome the ...

The little spheres represent water molecules. Molecules are in constant motion. The attractions water molecules have for each other keep them close together. They can move past each other, but their ...

as their constituent molecules are perpetually frozen in a state of disorder. Similarly, supercooled liquids are not quite solid, in the sense that their fundamental particles do not stick to a ...

In liquids, particles are quite close together and move with random motion throughout the container. In gases the particles move rapidly in all directions, frequently colliding with each other and ...

The hydrogen bonds that form water molecules are responsible for the many properties that make water a unique liquid. However ...

liquid and gas. Gas laws and the kinetic model The behaviour of gases is described in terms of the kinetic theory, which considers the motion of molecules in the gas. The gas law links pressure ...

The top image illustrates the 3D framework of the structure housing the liquid crystal molecules, shown in blue and green. The bottom sequence details the transition from random orientation (left) to ...

as their constituent molecules are perpetually frozen in a state of disorder. Similarly, supercooled liquids are not quite solid, in the sense that their fundamental particles do not stick to a ...