Grass gets water by us and dew
Diffusion of a concentrated juice in water.
Diffusion of a concentrated juice in water.
Ice, Grass, Water
Diffusion of water across a semipermeable membrane is a type of simple diffusion given the special name of osmosis.
Diffusion of water across a semipermeable membrane is a type of simple diffusion given the special name of osmosis.
its osmosis Osmosis is not the same as diffusion of water. Diffusion of water is just diffusion like with any other substance: the particles spreading, making a homogeneous distribution. Osmosis involves a semipermeabel membrane, where water goes from low solvent concentration to high solvent concentration.
its osmosis Osmosis is not the same as diffusion of water. Diffusion of water is just diffusion like with any other substance: the particles spreading, making a homogeneous distribution. Osmosis involves a semipermeabel membrane, where water goes from low solvent concentration to high solvent concentration.
its osmosis Osmosis is not the same as diffusion of water. Diffusion of water is just diffusion like with any other substance: the particles spreading, making a homogeneous distribution. Osmosis involves a semipermeabel membrane, where water goes from low solvent concentration to high solvent concentration.
Diffusion is a process which is affected by changes in temperature in the system where it is taking place. When the temperature is high, the rate of diffusion is high and when the temperature is low, the rate of diffusion is less.Hence, we can say that diffusion is directly proportional to temperature.Therefore, the answer to your question is that diffusion will be high in hot water and in cold water, it will be slow.
the diffusion of water
Osmosis. Osmosis is not the same as diffusion of water. Diffusion of water is just diffusion like with any other substance: the particles spreading, making a homogeneous distribution. Osmosis involves a semipermeabel membrane, where water goes from low solvent concentration to high solvent concentration.
The dispersal of ink in a beaker of water is an example of passive diffusion. This is because the ink particles move from an area of high concentration (the ink) to an area of low concentration (the water) without the need for energy input.