liquid
Gases have no definite shape or volume and expand to fill their container. They are highly compressible and tend to diffuse quickly. Gas particles are in constant, random motion. Gases have low densities compared to liquids and solids. They do not exhibit strong intermolecular forces. Gases are affected by changes in temperature, pressure, and volume.
The compressibility of isopropyl alcohol (also known as isopropanol or rubbing alcohol) is relatively low, around 0.0009 to 0.0010 bar⁻¹ at room temperature. This indicates that isopropyl alcohol is not highly compressible under normal conditions. Its compressibility may vary slightly depending on temperature and pressure. Overall, it behaves as a moderately incompressible liquid compared to gases.
Compressibility varies among different states of matter due to the arrangement and movement of their particles. Gases are highly compressible because their particles are far apart and move freely, allowing significant volume reduction under pressure. Liquids are less compressible as their particles are closer together, restricting movement and making it harder to reduce their volume. Solids are the least compressible, with tightly packed particles that resist changes in volume when subjected to pressure.
Gases are highly compressible because their molecules are spaced far apart, allowing significant empty space between them. When pressure is applied, these molecules can be pushed closer together, reducing the volume of the gas significantly. In contrast, solids and liquids have closely packed molecules that are held together by strong intermolecular forces, making it difficult to compress them further. This structural difference in molecular arrangement accounts for the varying compressibility of gases compared to solids and liquids.
Gases are highly compressible because their molecules are far apart and occupy a larger volume compared to solids and liquids, where molecules are closely packed. In gases, the intermolecular forces are weak, allowing the molecules to move freely and be compressed into a smaller space when pressure is applied. In contrast, solids and liquids have stronger intermolecular forces and fixed volumes, making them less susceptible to compression. This fundamental difference in molecular spacing and interactions explains the high compressibility of gases.
Gases are highly compressible. So they don't have definite volume and pressure. As volume is reduced for a given mass pressure increases. Also as temperature changes then at constant volume pressure changes considerably. Same way for a constant pressure temperature change brings a change in the volume. Moreover gasses do not have a free surface.
Gases are highly compressible. So they don't have definite volume and pressure. As volume is reduced for a given mass pressure increases. Also as temperature changes then at constant volume pressure changes considerably. Same way for a constant pressure temperature change brings a change in the volume. Moreover gasses do not have a free surface.
the air will be in liquid state when its pressure is increased and its temparature is decreased. eg: CNG is highly compressible gas.
Gases have no definite shape or volume and expand to fill their container. They are highly compressible and tend to diffuse quickly. Gas particles are in constant, random motion. Gases have low densities compared to liquids and solids. They do not exhibit strong intermolecular forces. Gases are affected by changes in temperature, pressure, and volume.
All gases are compressible. Depending on their state. Oxygen can be a gas, a solid or a liquid. Liquid oygen (very very cold) would not be compressible, solid oxygen (frozen) would not either but as a gas at standard conditions - room temperature and pressure - it can be compressed. For example, compressed oxygen is used in emergency vehicles to keep people alive if they are injured or sick. It is extremely flammable, almost explosive so no smoking near a compressed oxygen gas cylinder, OK?
Because air is highly-compressible.
Vinegar, like most liquids, is not highly compressible. Liquids are generally considered incompressible because their molecules are closely packed together, leaving little space for compression. While there are slight compressibility effects under extreme pressure, they are negligible under normal conditions. Therefore, vinegar behaves similarly to other liquids in this regard.
The compressibility of isopropyl alcohol (also known as isopropanol or rubbing alcohol) is relatively low, around 0.0009 to 0.0010 bar⁻¹ at room temperature. This indicates that isopropyl alcohol is not highly compressible under normal conditions. Its compressibility may vary slightly depending on temperature and pressure. Overall, it behaves as a moderately incompressible liquid compared to gases.
Compressibility varies among different states of matter due to the arrangement and movement of their particles. Gases are highly compressible because their particles are far apart and move freely, allowing significant volume reduction under pressure. Liquids are less compressible as their particles are closer together, restricting movement and making it harder to reduce their volume. Solids are the least compressible, with tightly packed particles that resist changes in volume when subjected to pressure.
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.
Gases are highly compressible because their particles are widely spaced and have weak intermolecular forces, allowing them to be compressed easily. Solids, on the other hand, are nearly incompressible because their particles are tightly packed in fixed positions with strong intermolecular forces that resist compressibility.
Acetylene is a gas at standard temperature and pressure.