Liquid crystals typically do not have a low resistance. While they can conduct electricity to some extent, their resistance is usually higher compared to traditional conductors like metals. Their unique electrical properties make them useful in electronic displays and other applications.
Solid crystals have a fixed, ordered arrangement of molecules or atoms, while liquid crystals have a partially ordered structure that can flow like a liquid but still exhibit some properties of a solid. Solid crystals have a defined melting point where they transition to a liquid state, while liquid crystals have a range of temperatures over which they exhibit liquid-like and solid-like properties.
Viscosity is the resistance of a liquid to flow. It is a measure of the internal friction within a fluid as it moves. Liquids with high viscosity flow more slowly than those with low viscosity.
On evaporation the crystals so formed are in the form of solid(in criss cross manner) and on crushing those crystals they become change into powder.
When liquid rock cools slowly, crystals will be bigger because there is more time for the crystals to grow and develop before the rock solidifies. In contrast, when liquid rock cools quickly, crystals are smaller because there is less time for them to form and grow.
The viscosity of a liquid is best defined as its resistance to flow. It measures how easily a liquid can flow and is influenced by factors such as temperature and molecular structure. Liquids with high viscosity flow more slowly than those with low viscosity.
Iam-Choon Khoo has written: 'Liquid crystals XI' -- subject(s): Congresses, Liquid crystals 'Liquid Crystals IX' 'Liquid Crystals' -- subject(s): Liquid crystals 'Liquid crystals XII' -- subject(s): Congresses, Liquid crystals
G. W. Gray has written: ''The great ravelled knot'' 'Liquid Crystals' 'Smectic liquid crystals' -- subject(s): Liquid crystals 'Liquid crystals & plastic crystals' -- subject(s): Liquid crystals, Plastic crystals
You get low viscosity with thin liquids like water that flow easily. Low viscosity means the liquid has low resistance. You get high resistance when you have liquids that flow slowly like honey and syrup, which means high viscosity.
types of liquid crystals
The resistance of a liquid's flow is called viscosity. It is a measure of the fluid's resistance to deform or flow. Materials with high viscosity flow more slowly, while those with low viscosity flow more easily.
Viscosity is the resistance of a liquid to flow. It is a measure of the internal friction within a fluid as it moves. Liquids with high viscosity flow more slowly than those with low viscosity.
Solid crystals have a fixed, ordered arrangement of molecules or atoms, while liquid crystals have a partially ordered structure that can flow like a liquid but still exhibit some properties of a solid. Solid crystals have a defined melting point where they transition to a liquid state, while liquid crystals have a range of temperatures over which they exhibit liquid-like and solid-like properties.
Liquid resistance to spreading out is described by its surface tension, which is a measure of the cohesive forces between molecules at the liquid-air interface. High surface tension means the liquid resists spreading out and tends to form droplets, while low surface tension allows the liquid to spread more easily.
the resistance of liquid to following is its viscosity.
Dietrich Demus has written: 'Textures of liquid crystals' -- subject(s): Liquid crystals, Texture (Crystallography) 'Flu ssige Kristalle in Tabellen' -- subject(s): Liquid crystals, Tables
Liquid crystals start to flow during the melting phase similar to a liquid, but they do not lose their ordered arrangement completely, as most substances do. Liquid crystals will retain their geometric order in specific directions.
Francesco Simoni has written: 'Ottica e tecnologia ottica' -- subject(s): Physiological optics, Geometrical optics, Lenses 'Nonlinear optical properties of liquid crystals and polymer dispersed liquid crystals' -- subject(s): Optical properties, Polymer liquid crystals, Nonlinear theories, Liquid crystals