The question doesn't really make sense, sorry. A 10 what of glucose? Don't forget your units! it is in sperm
vapour pressure of a solution containing non volatile solute if a non volatile solute is added to volatile solvent the vapour pressure of the solution is lower than the vapour pressure of pure component glucose is non volatile and water is volatile The surface of a pure solvent is populated only by solvent molecules therefore its easier for them to escape . but when glucose is present only solvent molecules volatile They alone can escape to build up the vapor pressure of the solution by Vijay Iyer
Not if the solution contained only glucose and water.
Water will diffuse from solution B to solution A
Assuming that is is a solution of glucose in water, the answer is 93%.
I have 5.7 micro siemens
vapour pressure of a solution containing non volatile solute if a non volatile solute is added to volatile solvent the vapour pressure of the solution is lower than the vapour pressure of pure component glucose is non volatile and water is volatile The surface of a pure solvent is populated only by solvent molecules therefore its easier for them to escape . but when glucose is present only solvent molecules volatile They alone can escape to build up the vapor pressure of the solution by Vijay Iyer
If this solution is a mixture you would use Henry's or Raoult's Law. If this is pure water then the answer is already in the question.
Not if the solution contained only glucose and water.
Water vapour is a solution in air.
Water vapour is a solution in air.
alcohol has high vapour pressure than water at room temperature.
Glucose is the solute; water is the solvent.
The products of phosynthesis are: oxygen, glucose and water vapour.
The partial pressure of water (vapor) is included in the total pressure of the atmosphere (air) when boiling.
Water will diffuse from solution B to solution A
Mist is water vapour that is in the air, it is not really a solution.
Relative humidity (RH) is the ratio of the partial pressure of water vapour to the saturation vapour pressure of water at the same temperature. Relative humidity depends on temperature and the pressure. Very roughly speaking, it is a ratio of the amount of water vapour in the air compared to the total amount of water vapour that it possible for that air to contain.