A plant cell with a water potential of -0.65 MPa is placed in a solution with a water potential of -0.30 MPa. Assuming the cell wall is rigid and fully permeable, and the cell membrane is selectively permeable, what will be the pressure potential of the cell at equilibrium?
-0.95 MPa
-0.35 MPa
+0.35 MPa
+0.95 MPa
Related Questions
Osmosis is the movement of water against the concentration of A and along the concentration of B. A and B are
Solvent, Solvent
Solute, Solute
Solvent, Solute
Solute, solvent
Osmosis is the movement of water against the concentration of A and along the concentration of B. A and B are
Solvent, Solvent
Solute, Solute
Solvent, Solute
Solute, solvent
    Select the correct statement from the following
    Only the net direction of osmosis, not the rate of osmosis depends on both the pressure gradient and concentration gradient
    The rate of osmosis depends only on pressure gradient
    The net direction and rate of osmosis depends upon both the pressure gradient and concentration gradient
    The net direction and rate of osmosis do not depend on the pressure gradient and concentration gradient
In thistle funnel experiment, what will occur if sugar solution is added to beaker, after the process of osmosis stops?
    The level of solution in thistle funnel rises up
The level of solution in thistle funnel lowers
    The level of solution in beaker lowers
    The level of solution remains unaffected in beaker
