Two aqueous solutions, A and B, are separated by a semipermeable membrane. The osmotic pressure of solution A immediately begins to decrease. Which of the following statements is true? Solvent molecules are moving from solution B into solution A. The initial osmotic pressure of solution B is greater than that of solution A. The solvent molecules are moving from the solution of higher osmotic pressure to that of lower osmotic pressure. Both B and C are true statements.
Two aqueous solutions, A and B, are separated by a semipermeable membrane. The osmotic pressure of...
If the following 2 aqueous solutions are separated by a semipermeable membrane which of the following statements is true? A = 0.300 M KI B = 0.300 MgCl2 Select one: a. Solvent will flow from A to B. b. The solutions are isotonic and there will be no change c. There is no way to know d. Solvent will flow from B to A
1) Two aqueous solutions are placed in a U tube (one on each side) separated by a semipermeable membrane. One solution is one liter of 0.05 M urea (a molecular solute) and the other is one liter of 0.02 M Na2SO4. Assume ideal solutions at the same temperature. i) Which solution has the higher osmotic pressure? ii) In order to stop water from flowing, pressure must be applied to which side of the tube? A) i) urea, ii) urea B)...
Two solutions are separated by a semipermeable membrane. The volume of compartment A increases while the volume of compartment B decreases. This information suggests which TWO of the following are true? (choose TWO) Select one or more: Compartment A was initially isotonic to compartment B. Compartment A initially had a higher osmolarity than compartment B. Compartment A initially had a lower osmolarity than compartment B. Compartment A was initially hypotonic to compartment B. Compartment A was initially hypertonic to compartment...
Solutions A and B are separated by a semipermeable membrane. For each of the following pair, determine the direction of flow of water (A to B or B to A) a. A: 2.5 % glucose solution. B: 4.0 % glucose solution b. A: 2.0 M NaCl solution. B: 0.9 M NaCl solution
Calculate the osmotic pressure at 25°C across a semipermeable membrane separating seawater (1.14 M total particles) from a 0.547 Msolution of aqueous NaCl.
A semipermeable membrane separates two aqueous solutions at 20 degree C. For each of the following cases, name the solution into which a net flow of water (if any) will occur. Assume 100% dissociation for electrolytes.
a. Consider these two solutions: Solution A is prepared by dissolving 5.00 g of MgCl2 in enough water to make .250 L of solutions, and Solution B is prepared by dissolving 5.00 g of KCl in enough water to make .250 L of solution. Which direction will solvent initally flow if these two solutions are seperated by a semipermeable membrane? b. Assuming that the volumes of the solutions described in question 4 are additive and igoring any effects that gravity...
Quiz 3 Bios 240 1. Two solutions are separated by a semipermeable membrane that is permeable to sodium but not chloride or potassium ions. Solution A on the left contains a solution that is 100 mM NaCI, while Solution B on the right has a concentration of sodium chloride of 1 mM. There is an electrode in both solutions, and a comparative assessment of voltages between the two compartments is being made. The investigator doing the study decides to call...
which answer is correct? Question 40 If two aqueous solutions with concentrations of 0.3 M sugar and 0.5 M sugar respectively are separated by a semipermeable membrane, during osmosis there is a net flow of sugar molecules from the 0.3M solution to the 0.5M solution water molecules from the 0.3M solution to the 0.5M solution sugar molecules from the 0.5M solution to the 0.3M solution water molecules from the 0.5M solution to the 0.3M solution
The solutions in the two of this bare separated by a membrane els permeable to water Initiallythe devels on both sides are equal Which of the following will be true when the systems ted above reaches equilibrium The water levels w e unchanged the concentraron o SUS de A w be greater than the concentraron of C onde The water level be higher inside the water level will be higher inside the inside the inside