The idea is that they tend to be made up of lighter molecules; on average, these move faster (for a given temperature) than heavier (actually, more massive) molecules.
Light gases diffuse more easily than heavier gases due to their higher kinetic energy and faster molecular speeds. According to Graham's law of effusion, the rate of diffusion is inversely proportional to the square root of the molar mass; lighter molecules move more quickly and can spread out more rapidly in a mixture with heavier molecules. This difference in speed allows light gases to intermingle with heavier gases more efficiently. As a result, light gases tend to diffuse more rapidly in a given environment.
Gases diffuse more rapidly than liquids because gas molecules are less dense, have higher kinetic energy, and are not as tightly packed together as liquid molecules. This means that gas molecules can move more freely and quickly between particles, allowing for faster diffusion rates compared to liquids.
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.
gases with the higher molar mass
Gases have no fixed shape or volume. They expand to fill the container they are in. They are compressible. Gases have low density compared to liquids and solids. They exert pressure on the walls of their container. Gases are highly mobile and can diffuse rapidly.
No, all gases do not diffuse at the same speed. Factors such as molecular weight, temperature, and pressure influence the diffusion rate of gases. Lighter gases tend to diffuse faster than heavier gases.
Light gases diffuse more easily than heavier gases due to their higher kinetic energy and faster molecular speeds. According to Graham's law of effusion, the rate of diffusion is inversely proportional to the square root of the molar mass; lighter molecules move more quickly and can spread out more rapidly in a mixture with heavier molecules. This difference in speed allows light gases to intermingle with heavier gases more efficiently. As a result, light gases tend to diffuse more rapidly in a given environment.
Gases diffuse more rapidly than liquids because gas molecules are less dense, have higher kinetic energy, and are not as tightly packed together as liquid molecules. This means that gas molecules can move more freely and quickly between particles, allowing for faster diffusion rates compared to liquids.
The atmosphere above 80km (50 mi) and the homosphere where gases are stratified, with concentrations of the heavier gases decreasing more rapidly with altitude than concentrations of the lighter gases
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.
Many gases produce in body of human. When the man die the water enter the human body and there is no way for air to diffuse out of the human body .As the gasesare lighter so they try to diffuse out of the water due to this the dead body floats on water
Solid - Particles vibrate and rotate about a fixed position and do not diffuse measurably Liquid - Particles move freely in all directions slowly and diffuse slowly Gas - Particles move freely in all directions rapidly and diffuse rapidly
graham's law of diffusion states that the rates of which gases diffuse at the same temperature are inversely proportional to the square roots of their densities.
gases with the higher molar mass
diffusion is dependent on chemical reactivity (can't diffuse if you're in a bond) and mass. So the lightest most un-reactive gases will diffuse the quickest. Helium would seem to be the best contender. diffusion is dependent on chemical reactivity (can't diffuse if you're in a bond) and mass. So the lightest most un-reactive gases will diffuse the quickest. Helium would seem to be the best contender.
Gases have no fixed shape or volume. They expand to fill the container they are in. They are compressible. Gases have low density compared to liquids and solids. They exert pressure on the walls of their container. Gases are highly mobile and can diffuse rapidly.
Yes, both hydrogen and oxygen are gases at room temperature and pressure, so they can diffuse easily in air. Diffusion is the process by which gases mix due to the random motion of their particles.