NO
The maximal concentration is 20 %.
Osmosis of water from a low concentration of salt to a high concentration
The concentration of the water determines the rate of diffusion. A higher concentration of water will be transported to an area with a lower concentration, via the concentration gradient. In a high salt solution, the concentration of the water is higher in the cell, and so the water is diffused through the cells semi-permeable membrane into the high salt solution, to try to stabilise the concentration differential.
high concentration of salt in the water
An egg will float in water when the salt concentration is high enough to increase the water's density, making it greater than the egg's density. This typically occurs when the salt concentration is around 10-15% in the water.
That is incorrect. Osmosis actually causes water to move from areas of high water concentration to areas of low water concentration, in order to equalize the concentration of solutes across a semipermeable membrane.
Halophiles live in environments with high salt concentrations, such as salt flats, salt mines, and saline lakes. They are able to thrive in these extreme conditions because they have adapted mechanisms to cope with the high salt levels.
Halobacter organisms have adapted to high salt concentrations because it helps them maintain water balance within their cells. The high salt environment allows them to prevent water loss through osmosis, as the salt concentration outside their cells is similar to the concentration inside their cells. Additionally, the high salt environment offers protection against other microorganisms that cannot survive in such extreme conditions.
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
there is no salt concentration.
If the membrane is permeable to NaCl, it is expected that salt is transported from the liquid with high salt content, trough the membrane, to the water. This process will go on until the chemical potential of NaCl is the same in the both liquids.