The most important determinant of osmotic pressure of a solution is Select one: a. the structural...

An aqueous solution containing a substance whose concentration is 7.50 g/L has an osmotic pressure of...

An aqueous solution containing a substance whose concentration is 7.50 g/L has an osmotic pressure of 1150 Torr at 77 K. (a) What is the molecular weight of the solute? (b) What is the osmotic pressure of a solution at 27 degrees C that contains 1.00 g of this solute in 500 mL of solution?

Which of the following statements correctly describe the osmotic pressure of a solution? Select all that...

Which of the following statements correctly describe the osmotic pressure of a solution? Select all that apply. A. Osmotic Pressure will cause solvent molecules to flow from a more concentrated to a less concentrated solution through a semipermeable membrane. B. Osmotic Pressure increases with pressure. C. Osmotic Pressure is the pressure exerted by a solution on a semipermeable membrane. D. Osmotic Pressure will be greater for a larger volume of solutioin. E. Osmotic Pressure is directly proportional to the molarity...

what concentration unit is used in the calculation of osmotic pressure for a solution? A.) Molality...

what concentration unit is used in the calculation of osmotic pressure for a solution? A.) Molality B.) Weight percent C.) Mass fraction D.) Mole fraction E.) Molarity

The osmotic pressure of a 6.613 g dm-3 solution of polystyrene in toluene was measured at...

The osmotic pressure of a 6.613 g dm-3 solution of polystyrene in toluene was measured at 25oC, and the pressure, expressed in terms of the height of the solvent, was 1.910 cm. The density of toluene at this temperature is 1.004 g cm3. Calculate the molar mass of the polymer Using PI=[B]RT Where [B]= nb/V as the molar concentration of the solution.

We typically measure osmotic pressure indirectly by determining the pressure required to stop osmosis. Osmotic pressure...

We typically measure osmotic pressure indirectly by determining the pressure required to stop osmosis. Osmotic pressure can be calculated using the following equation: π = iRT(ΔC), where π = osmotic pressure (mm H2O) i = number of osmotically active particles resulting from dissociation of each molecule in solution. =1 1 R = gas constant (848 L-mm H2O/mol-degree) 0.0821 T = temperature (K) 296 ΔC = concentration difference of solute on the two sides of the membrane (Cinside – Coutside) 1-0=1...

The osmotic pressure of an aqueous solution at 300K is 250.0 kPa. (1)Calculate the molarity of...

The osmotic pressure of an aqueous solution at 300K is 250.0 kPa. (1)Calculate the molarity of solute (impurity) M (mol/m3)=; (2) Calculate the molality of solute (impurity) b (mol/kg)=; Calculate the freezing point of the solution T(oC)=. Please pay attention to the sign. The cryoscopicconstant Kf=1.86Kkgmol-1. Please enter your answers with 2 decimals. for example, 3.02466 is written as 3.02.

1a.) Calculate the osmotic pressure of a solution that contains 95.0 g of the nonelectrolyte urea,...

1a.) Calculate the osmotic pressure of a solution that contains 95.0 g of the nonelectrolyte urea, CH4N2O, per 500 mL of solution at 25°C. a.) 75.4 atm, b.) 69.8 atm, c.) 84.4 atm, d.) 77.4 atm 1b.) Calculate the osmotic pressure of a 0.060M glucose solution at 27°C. a.) 3.4 atm, b.) 1.2 atm, c.) 5.8 atm, d.) 1.5 atm PLEASE CIRCLE THE ANSWERS.

A) In reverse osmosis, water flows out of a salt solution until the osmotic pressure of...

A) In reverse osmosis, water flows out of a salt solution until the osmotic pressure of the solution equals the applied pressure. If a pressure of 66.0 bar is applied to seawater, what will be the final concentration of the seawater at 20 °C when reverse osmosis stops? B) Assuming that seawater has a total ion concentration (a.k.a colligative molarity) of 1.10 Mc, calculate how many liters of seawater are needed to produce 86.2 L of fresh water at 20...

Which of the following solutions would have the highest value for osmotic pressure? (Assume each solution...

Which of the following solutions would have the highest value for osmotic pressure? (Assume each solution has water as the solvent and are at the same temperature.) A. 0.20 M NaCl B. 0.10 M CaCl2 C. 0.50 M CH3OH D. 0.30 M CaCl2 E. 0.10 M CH3COCH3

Calculate the osmotic pressure of a magnesium citrate laxative solution containing 28.0 g of magnesium citrate...

Calculate the osmotic pressure of a magnesium citrate laxative solution containing 28.0 g of magnesium citrate in 225 mL of solution at 37 ∘C (approximate body temperature). Assume complete dissociation of the ionic compound.