Yes, a gas can escape through a tiny opening into a vacuum during effusion. Effusion is the process by which gas molecules pass through a small opening into a vacuum due to their random motion. This happens because of the difference in pressure between the gas inside and the vacuum outside.
One example of gas effusion is the release of a gas through a small hole in a container, such as when air slowly escapes from a balloon. Another example would be the diffusion of gas molecules through a porous membrane, like the way oxygen and carbon dioxide diffuse in and out of our lungs during respiration.
in the normal diffusion the substance move from the area of greater concentration to that of lower concentration. .... but i never know what do we mean be "faciliated" plz specify
Glucose is one of the most commonly transported substances during facilitated diffusion. Facilitated diffusion is the process by which specific molecules, like glucose, are transported across cell membranes with the help of carrier proteins. These carrier proteins facilitate the movement of molecules down their concentration gradient without requiring energy input.
Particles, cells, and molecules move from areas of higher to lower concentrated areas.
During diffusion, molecules move from an area of higher concentration to an area of lower concentration, in order to reach an equilibrium. This movement occurs randomly, driven by the kinetic energy of the molecules. Diffusion does not require energy input from the cell.
Yes, a gas can escape through a tiny opening into a vacuum during effusion. Effusion is the process by which gas molecules pass through a small opening into a vacuum due to their random motion. This happens because of the difference in pressure between the gas inside and the vacuum outside.
high concentration to low concentration
During diffusion molecules move from a region of higher concentration to one of lower concentration by random molecular motion.
Molecules that move by diffusion include oxygen, carbon dioxide, and water. During osmosis, water molecules move across a semipermeable membrane from an area of lower solute concentration to an area of higher solute concentration.
One example of gas effusion is the release of a gas through a small hole in a container, such as when air slowly escapes from a balloon. Another example would be the diffusion of gas molecules through a porous membrane, like the way oxygen and carbon dioxide diffuse in and out of our lungs during respiration.
This process is known as diffusion. During diffusion, molecules move spontaneously from an area of higher concentration to an area of lower concentration in order to achieve equilibrium. The movement continues until the concentration of the molecules is equal throughout the space.
Molecules never completely stop moving during diffusion. Diffusion involves the random movement of particles from areas of high concentration to areas of low concentration. However, their movement may slow down or become more evenly distributed as equilibrium is reached.
in the normal diffusion the substance move from the area of greater concentration to that of lower concentration. .... but i never know what do we mean be "faciliated" plz specify
Diffusion is the main method by which molecules move across the cell membrane. during diffusion, molecules move from an area of higher concentration, to an area of lower concentration. What is Osmosis? Osmosis is the transport of water from an area of high concentration, to an area of low concentration water moves inside and inside of the cell membrane by osmosis. osmosis is the diffusion of water!
Glucose is one of the most commonly transported substances during facilitated diffusion. Facilitated diffusion is the process by which specific molecules, like glucose, are transported across cell membranes with the help of carrier proteins. These carrier proteins facilitate the movement of molecules down their concentration gradient without requiring energy input.
Particles, cells, and molecules move from areas of higher to lower concentrated areas.