Which aqueous solution will have the lowest osmotic pressure? A. 0.04 M MgCl2 B. 0.05 M KBr C. 0.1 M LiCl D. 0.2 M Na2SO4
Which aqueous solution will have the lowest osmotic pressure? A. 0.04 M MgCl2 B. 0.05 M...
Which of the following aqueous solutions will have the lowest vapor pressure? A. 0.250 m CH3CH2OH B. 0.095 m (NH4)3PO4 C. 0.180 m AlPO4 D. 0.060 m Al2(SO4)3 E. 0.100 m MgCl2
Which of the following aqueous solutions will have the lowest vapor pressure? A. 0.250 m CH3CH2OH B. 0.095 m (NH4)3 PO4 C. 0.180 m AlPO4 D. 0.060 m Al2(SO4)3 E 0.100 m MgCl2
Which of the following aqueous solutions would have the lowest vapor pressure? a) 0.15 m nacl b) 0.10 m mgcl2 c) 0.30 m ch3oh d) 0.10 m li3po4 explain to me why, please
What is the osmotic pressure of a 0.201 M solution of MgCl2 at 37.0 °C? (assume complete dissociation).
please explain why
Which of the following aqueous solutions would have the highest osmotic pressure at 298 K? O 0.5 M (NH4)2SO4 O pure H20 O 1.5 M glucose (C6H1206) O 1M MgCl2 O 1M NaNO3
8. Estimate the melting point and osmotic pressure of a 2.0-L aqueous solution that contains 0.18 mol of NaCl and 0.30 mol of MgCl2 at 25°C. (solution density=1.02 g/cm').
QUESTION 15 Which of the following aqueous solutions will have the LOWEST vapor pressure? , 0.20 m C6H12O6 O 0.20 m NaCl O 0.10 m CaCl2 ○ 0.40 m C2H3OH 0 0.20 in Na2SO4
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.
Which aqueous solution will have the lowest freezing point? (a) 0.050 m CaCl2 (b) 0.15 m NaCl (c) 0.10 m HCl (d) 0.050 m CH3COOH (e) 0.20 m C12H22O11
1.) A 0.046 M aqueous solution of FeCl, has an osmotic pressure of 4.09 atm at 28°C. a. Calculate the percentage difference of the van't Hoff factor from the ideal value. b. What should be the concentration of this aqueous solution if this is in ideal condition?