That means how easy it is to compress the liquid - to reduce its volume by applying pressure. Liquids are normally not very compressible.
The compressbilit of liquid is water pressure
No,an increase in pressure in liquid does not increase it compressibility but it does in gas:-P
No. Gasses are normally highly compressible. Liquids such as water and melted metals, have low compressibility.
gas
All gasses and vapors are compressible, whereas liquids and solids are not compressible to any useful extent. The compressibility of gasses is due to the much greater spacing of its molecules than would exist in its liquid or solid state; in fact, if you compress a gas far enough, it will eventually become a liquid, and then a solid. The compressibility of gasses is a very useful property that allows us to run machinery and to make aerosol sprays.
Compressibility is the ability of something to be "squashed" into a smaller space. Gases are very compressible with relatively little pressure. Liquids are much less compressible and solids even less so. (Try to squeeze your desk into a smaller space...)
No,an increase in pressure in liquid does not increase it compressibility but it does in gas:-P
No. Gasses are normally highly compressible. Liquids such as water and melted metals, have low compressibility.
Gases and liquid do not share the same compressibility property. In liquids, the molecules are approximately lesser compressed, that Is why they move around freely and does not have fixed shape. While gas is the most compressible and it doesn't have a shape.
The compressibility of liquids is low enough that considering them to be incompressible is usually a safe assumption.
The molecular structure or compressibility of a solid material is very compact, tight and very close to each other. This results to the solidâ??s native hardness than liquids or gases.
Of the three phases of matter, gases are the most compressible, in general, followed by liquids.
compressibility of petrol
What kind of fluid, liquid or gas? Gases are compressible, liquids pretty much are not. (And yes, both gases and liquids are fluids; the word "fluid" comes from the same root word that gives us "flow," which both gases and liquids are capable of doing.)
The non-compressibility of liquids, and the equivalence of p = F/A (pressure equals force divided by area) explain why and how hydraulics work.
The Carr's index is a measure of flowability of a powdered or granular material. It is calculated by taking the difference between the tapped and bulk densities of the material and dividing by the tapped density, and then multiplying by 100. A lower Carr's index value indicates better flowability of the material.
There is no relationship, other than they both are in relation to thickness of some type. Density (sp) is a measurement of solid objects Viscosity (sp) is a measurement of liquids
The molecules in gasses are much more widely spaced than in liquids and gasses. For that reason, the molecules interact with one another much less and thus allow much more compressibility. Between liquids and solids, the reason is a bit more subtle. In solids, the molecules have settled into relatively fixed positions that require much more energy to displace them than in liquids where they are still somewhat free to move about. The more tightly bound the atoms are in a solid, the more it resists compression. Note that as liquids are raised in temperature towards the liquid/gas critical point, the liquid expands and becomes more compressible. The critical point is defined as the point of inflection in the isotherm where the slope of the line goes to zero - meaning infinite compressibility at that exact temperature and pressure. Of course as soon as you apply pressure, you move away from that zero slope point and compressibility is no longer infinite.