The osmotic pressure of blood is `8.21 atm` at `310 K`. How much glucose should be used per L for an intravenous injection that is isotonic with blood?

The osmotic pressure of blood is 8.21 atm at 310 K . How much glucose should be used per L for an intravenous injection that is isotopic with blood?

The osmotic pressure of blood is 7.40 atm at 27^(@) C .The number of mol of glucose to be used per litre for an intravenous injection that is to have the same osmotic pressure as blood is

The average osmotic pressure of human blood is 7.8 bar at 37^(@)C . The concentration of aqueous NaCl solution that could be used in the blood stream is

At 10^(@) C, the average osmotic pressure of blood is 8.8 atm. Find the concentration of the various constituents in the blood. Assuming that the concentration is the same as the molarity. Find the freezing point of the solution (K_(f) " for water " = 1.86 K" kg mol"^(-1))

The osmotic pressure of a solution was found to be 8 atm when 8 mol of a non-volatile solute was dissolved in V L of solution at 300 K .Calculate the volume of solution (R=0.0821 L-"atm" K^(-1) "mol"^(-1))

Two solutions of glucose have osmotic pressure 1.5 and 2.5 atm ,respectively. 1 L of first solution is mixed with 2 L of second solution. The osmotic pressure of the resultant solution will be a. 2.62 atm , b. 6.12 atm ,c. 3.26 atm , d. 2.16 atm

The osomotic pressure pi depends on the molar concentration of the solution (pi=CRT) . If two solutions are of equal solute concentration and, hence, have the same omotic pressure, they are said to be isotonic. If two solutions are of unequal osmotic pressures, the more concentrated solution is said to be hypertonic and the more diluted solution is described as hypotonic. Osmosis is the major mechanism for transporting water upward in the plants. Answer the following questions: The glucose solution to be injected into the bloodstream and the blood itself should have the same.