Gases diffuse into and out of plants through small openings on the surface called stomata. These stomata are surrounded by guard cells that can open and close to regulate the exchange of gases such as oxygen and carbon dioxide with the environment. The process of gas exchange is essential for photosynthesis and respiration in plants.
gases with the higher molar mass
by cooling
Gases diffuse most efficiently across a thin membrane or barrier. This is because a thin membrane allows for quicker movement of gas molecules from an area of high concentration to an area of low concentration.
Diffusion, plain old thermal mixing, aka. entropy. It takes months for gases to diffuse upwards / downwards, days to diffuse north or south (latitudinally), and hours to diffuse west->east (longitudinally).
No. Diffusion is faster in gases.
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.
gases with the higher molar mass
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.
what is the procedure to diffuse two gases show the result
by cooling
Gases diffuse most efficiently across a thin membrane or barrier. This is because a thin membrane allows for quicker movement of gas molecules from an area of high concentration to an area of low concentration.
The intermolecular forces in gases are extremely small; gases easily diffuse in any space.
Diffusion, plain old thermal mixing, aka. entropy. It takes months for gases to diffuse upwards / downwards, days to diffuse north or south (latitudinally), and hours to diffuse west->east (longitudinally).
No. Diffusion is faster in gases.
lower exchange rate,takes longer for gases to diffuse
They have capillaries close to their surfaces.
Gases will naturally diffuse away, however more will diffuse back. Compression will decrease the amount of gas trapped at any one time.