1300 gm of a solution of urea having molarity equal to 5 m is kept in a large bucket is kept under a tap through which a 1 m urea solution is flowing . Assuming a constant rate of flow of urea solution which is equal to 0.5 gm/sec answer the question that follow.
Calulate approximate amount of water present in the bucket at time t=2000 sec.

A 100 ml solution of a radioactive material has activity A_(0) . The solution is kept in a container and is diluted by adding water at a constant role of 100ml/sec. From a small hole in the container 20ml/sec of solution is taken out simultaneously. find the activity of the 100ml solution that is taken out in 5sec. Assume that the half life of radioactive material is very large and that the solution alwyas remains homogeneous.

A saturated solution of iodine in water contain 0.330g I_(2) per litre . More than this I_(2) can be dissolved in KI solution because of the following equilibrium. I_(2(g))+I^(-)hArrI_(3)^(-) A 0.100 M KI solution actually dissolves 12.5 g "iodine per litre" , most of which is converted to I_(3)^(-) . Assuming that the concentration of I_(2) in all saturated solution is the same, calculate the equilibrium constant for the above reaction. What is the effect of adding water to a clear saturated solution of I_(2) in the KI solution?

A 100ml solution having activity 50 dps is kept in a beaker It is now constantly diluted by adding water at a constant rate of 10ml//sec and 2 ml//sec of solution is constantly being taken out. Find the activity of 10 ml solution which is taken out, assuming half life to be effectively very large :

Calculate the molar mass of the substance if a 5.25% solution of the substance is sisotonic with 1.5% solution of urea(molar mas =60mol^(-1) ) in the same solvent. Assuming the densities of both the solutions is equal to 1.0gcm^(-3)

The pH of a 0.1M solution of NH_(4)Oh (having dissociation constant K_(b) = 1.0 xx 10^(-5)) is equal to

The depression in freezing point of 0.01 m aqueous CH_(3)CooH solution is 0.02046^(@) , 1 m urea solution freezes at -1.86^(@)C . Assuming molality equal to molarity, pH of CH_(3)COOH solution is

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: What would be the percent strength of solution of urea that would be isotonic with 4.5% solution of glucose?