Osmosis rate increase when the gradient increase. That means if you have two flask, first one has salt at a concentration of 30 %, and the second one has salt at 10 %. When you connect the two flasks together, water will move from the area of high water (low salt concentration) to the area of low water (high salt concentration), from the second flask to the first. And, if you increased the difference in gradient (first flask 60 % salt and the second 10 %) so the difference will increase and the osmosis rate will increase too.
osmosis establishes or maintains the stable state of equillibrium
it stops and the plant wilts due to osmosis
if seeds are grown in distilled water then it increases rate of osmosis.
solution is in equilibrium and the solvent and solute continue diffusion or osmosis at an equal rate.
This is called reaction rate.
how do you calculate the rate of osmosis
Temperature affects the rate of osmosis because it speeds up the movement of water molecules across a semipermeable membrane. Higher temperatures provide more energy for water molecules to move, increasing the rate of osmosis, while lower temperatures slow down the movement of molecules, decreasing the rate of osmosis.
Yes, temperature can affect the rate of osmosis. Generally, an increase in temperature can increase the rate of osmosis, as it causes molecules to move more quickly, leading to more rapid diffusion across a semi-permeable membrane. Conversely, a decrease in temperature can slow down the rate of osmosis.
Factors that affect the rate of osmosis include the concentration gradient between the solutions, the surface area of the membrane through which osmosis is occurring, the thickness of the membrane, and the temperature of the solutions. Additionally, the presence of solutes that can affect the water potential of the solutions will also impact the rate of osmosis.
Higher temperatures generally increase the rate of osmosis because the kinetic energy of molecules increases, leading to faster movement across the membrane. As temperature increases, the rate of diffusion and osmosis increases due to faster movement of particles. However, extreme temperatures can denature proteins and alter membrane permeability, affecting osmosis rate.
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Yes, it does. Because the rate and the concentration are equally related, the biggest the difference in concentration the grater the rate of change of this concentration (osmosis)
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In general they don't.
Salt would slow this rate considerably and the more salt in the water the slower this rate would be.
Temperature affects the rate of osmosis by increasing the kinetic energy of the solvent molecules, allowing them to move faster and increase the rate of diffusion across the membrane. As temperature increases, the rate of osmosis also increases due to the higher energy levels of the molecules involved in the process. Conversely, decreases in temperature can slow down osmosis by reducing the movement of solvent molecules.
if the membrane is intact and there is a change of concentration of solut or solvent, osmosis should happen.