The net movement of solutes to regions of lower concentration is called diffusion. This process occurs in response to the concentration gradient, where solutes move from areas of higher concentration to areas of lower concentration until equilibrium is reached.
Movement of water from regions of high concentration to low concentration is called OSMOSIS.
The difference in concentration of a solute from one region to another is known as a concentration gradient. This gradient occurs when there is a higher concentration of solute in one area compared to another, creating a potential for movement. Solutes tend to move from regions of higher concentration to regions of lower concentration, often through processes like diffusion or osmosis, until equilibrium is reached. The steeper the gradient, the faster the rate of movement of the solute.
Yes, the net movement of particles from a region of high concentration to one of lower concentration is called diffusion. This process occurs due to the random movement of particles and tends to equalize the concentration of solutes in a solution.
Diffusion is the movement of particles (atoms, ions or molecules) from a region in which they are in higher concentration to regions of lower concentration.
Yes, the movement of water across the plasma membrane, known as osmosis, depends on the relative concentration of solutes. Water will move from an area of lower solute concentration to an area of higher solute concentration in an attempt to balance the solute concentrations on both sides of the membrane.
DiffusionThe movement of particles from a region of higher concentration to a region of lower concentration is called diffusion. However, the movement of water through a semi-permeable membrane (from an area of high concentration to an area of low concentration) is specifically called osmosis.
Movement of water from regions of high concentration to low concentration is called OSMOSIS.
Yes, the net movement of particles from a region of high concentration to one of lower concentration is called diffusion. This process occurs due to the random movement of particles and tends to equalize the concentration of solutes in a solution.
Osmosis
Osmosis. A solution with a low concentration of solutes would have a higher concentration of water than a solution with a high concentration of solutes. So in this case, water is moving from a higher concentration of water to a lower concentration of water, which is osmosis.
Osmosis, which is the movement of water across a semi-permeable membrane from where it is in high concentration to where it is in lower concentration. The purpose of osmosis is to equalize the concentration of solutes inside a cell and outside a cell.
: the movement of ions and molecules away from regions where they are in high concentration towards regions where they are in lower concentration.
Diffusion is the movement of particles (atoms, ions or molecules) from a region in which they are in higher concentration to regions of lower concentration.
Osmosis. A solution with a low concentration of solutes would have a higher concentration of water than a solution with a high concentration of solutes. So in this case, water is moving from a higher concentration of water to a lower concentration of water, which is osmosis.
Osmosis. A solution with a low concentration of solutes would have a higher concentration of water than a solution with a high concentration of solutes. So in this case, water is moving from a higher concentration of water to a lower concentration of water, which is osmosis.
Osmosis involves the movement of water across a selectively permeable membrane from an area of higher water concentration to an area of lower water concentration, in order to equalize the concentration of solutes on both sides of the membrane.
Osmosis. A solution with a low concentration of solutes would have a higher concentration of water than a solution with a high concentration of solutes. So in this case, water is moving from a higher concentration of water to a lower concentration of water, which is osmosis.