the concentration of solutes is the same every where
Water will move from the container with lower solute concentration to the container with higher solute concentration. This will continue until the solute concentrations in the two containers are equivalent.
the concentration of solutes is the same every where
After osmosis occurs, water will move from the container with the lower concentration of solute to the container with the higher concentration of solute until equilibrium is reached. This equalizes the concentrations of solute on both sides of the membrane, with the water levels potentially rising in the container with the higher solute concentration.
Osmosis is a physical process in which a solvent moves, without input of energy, across a semipermeable membrane (permeable to the solvent , but not the solute) separating two solutions of different concentrations. Osmosis releases energy, and can be made to do work, as when a growing tree root splits a stone.
The hypothesis for an osmosis and diffusion lab could be: "If a semipermeable membrane is placed between two solutions of different concentrations, then water will move from the side with lower solute concentration to the side with higher solute concentration, resulting in a net movement of water through the membrane."
Water will move from the container with lower solute concentration to the container with higher solute concentration. This will continue until the solute concentrations in the two containers are equivalent.
When two containers have different solute concentrations after osmosis, it means that water molecules have moved across the semi-permeable membrane from a region of lower solute concentration to a region of higher solute concentration. This results in the dilution of the more concentrated solution and the concentration of the less concentrated solution.
the concentration of solutes is the same every where
the concentration of solutes is the same every where
After osmosis occurs, water will move from the container with the lower concentration of solute to the container with the higher concentration of solute until equilibrium is reached. This equalizes the concentrations of solute on both sides of the membrane, with the water levels potentially rising in the container with the higher solute concentration.
Osmosis occurs wherever there is a semi-permeable membrane that separates two solutions of different concentrations. This process allows water molecules to flow from the area of lower solute concentration to the area of higher solute concentration to balance out the concentrations on both sides of the membrane.
Osmosis is a physical process in which a solvent moves, without input of energy, across a semipermeable membrane (permeable to the solvent , but not the solute) separating two solutions of different concentrations. Osmosis releases energy, and can be made to do work, as when a growing tree root splits a stone.
The hypothesis for an osmosis and diffusion lab could be: "If a semipermeable membrane is placed between two solutions of different concentrations, then water will move from the side with lower solute concentration to the side with higher solute concentration, resulting in a net movement of water through the membrane."
I think the word you're looking for is osmosis. Water with different ionic or molecular concentrations will move toward equilibrium.
Osmosis occurs when there is a semi-permeable membrane separating two solutions of different concentrations of solute, causing water molecules to move from an area of lower solute concentration to an area of higher solute concentration to equalize the concentration on both sides of the membrane.
Hypertonic, hypotonic and isotonic.
Osmosis is the movement of water across a selectively soluble membrane driven by a difference in solute concentrations. Osmosis in plants is the absorption of water from soil through the roots.