It would flow toward the weaker solution. The intent of osmosis is to gain equilibrium, so the 15 percent solution would gain sugar content until, if you allowed the osmosis to go to completion, the two solutions had the same amount of sugar in them.
"Going to completion" doesn't necessarily mean 20 percent concentration on both sides. If you were to make a gallon bag out of dialysis membrane, fill it with 15 percent solution and put a stirrer in it, then drop it into a 25,000-gallon reaction vessel full of 25 percent solution with a stirrer in it, you might wind up with 24.9999999999 percent sugar solution in both bags.
Osmosis may occur in either direction across the cell membrane.
The sugar solution is a hypertonic solution so water from the inside will exit through the cell membrane via osmosis and the cell will shrivel
Osmosis of water from a low concentration of salt to a high concentration
10 gallons..
50 liters
The direction will be towards the more concentrated side so the 10% solution with go towards the 20% solution in an attempt to reach equilibrium.
Osmosis may occur in either direction across the cell membrane.
Osmosis of water from the right to the left
It has something to do with osmosis....
The cell and the solution will reach equilibrium when they each contain 40 percent water. This equilibrium is achieved through osmosis.
The sugar solution is a hypertonic solution so water from the inside will exit through the cell membrane via osmosis and the cell will shrivel
Osmosis of water from a low concentration of salt to a high concentration
Osmosis of water from a low concentration of salt to a high concentration
Yes, during process of osmoses the solvent from higher concentration to lower concentration moves through semipermeable membrane, the 2% solution has lower concentration of solute therefore higher concentration of solvent.
There will be movement of water by osmosis from the less-concentrated solution (left) to the more-concentrated solution (right). Water will tend to flow from a more-dilute state to a less-dilute state.
Exo-osmosis of the bacterial cell takes place, the cell plasmolised & cell can die.
When red onions are placed in a solution with fifteenth percent salt and forty- five percent water, the water leaves the red onion cells through osmosis until the cell membrane will eventually collapse.