due to dissolution of the particles present in the solution so the volume increases
The concentration of a solution, measured in molarity, is directly proportional to the number of moles of solute dissolved in a specific volume of solvent. This means that as the molarity of a solution increases, the amount of solute present in that volume of solvent also increases.
When dissolving a substance in a solvent, the volume of the solution increases because the two substances combine. The mass of the solution remains constant, as the total mass before and after dissolving is the same, but it is distributed between the solute and the solvent.
When enough sugar is dissolved into the solvent (water) , or goes 'in to solution' , that no more will dissolve , the solvent is said to be 'saturated'. The more solvent you have the more sugar you can put into solution. No more sugar will dissolve once the solvent (now your solution) is saturated.
As more solute dissolves in a solvent, the solubility of the solute in the solvent increases. This leads to an increase in the concentration of the solution. The solution becomes more concentrated as more solute particles are dispersed in the solvent.
A solution with the highest concentration of solute will contain the largest volume of solvent in 100mL. This means a dilute solution with a low amount of solute will have the highest volume of solvent remaining.
The concentration of a solution, measured in molarity, is directly proportional to the number of moles of solute dissolved in a specific volume of solvent. This means that as the molarity of a solution increases, the amount of solute present in that volume of solvent also increases.
generally, a polymer gets dissolved in a solvent (which implies lower density and higher volume). the higher the temperature, the quicker the process, so to answer: the intrinsic volume for a polymer in a particular solvent increases with the temperature.
Why does the entropy of a solid increases when it is dissolved in a solvent
When dissolving a substance in a solvent, the volume of the solution increases because the two substances combine. The mass of the solution remains constant, as the total mass before and after dissolving is the same, but it is distributed between the solute and the solvent.
Sonication does sometimes work for fibroids, but it is not the most common procedure used. Sonication is when sound energy is used to agitate particles in a sample.
When enough sugar is dissolved into the solvent (water) , or goes 'in to solution' , that no more will dissolve , the solvent is said to be 'saturated'. The more solvent you have the more sugar you can put into solution. No more sugar will dissolve once the solvent (now your solution) is saturated.
No, the volume of the material increases when a solution is diluted because you are adding more solvent to decrease the concentration of the solute. Diluting a solution does not change the total amount of material present, but it does change the volume in which that material is dispersed.
When a solution is diluted, additional solvent is added, which increases the total volume of the solution. This dilution process reduces the concentration of the solute in the solution while keeping the amount of solute constant.
As more solute dissolves in a solvent, the solubility of the solute in the solvent increases. This leads to an increase in the concentration of the solution. The solution becomes more concentrated as more solute particles are dispersed in the solvent.
As a cell increases in size the volume increases much faster than the surface area. The possible answer is C.
It increases the boiling point of the solution and it increases the temperature range over which the solution remains a liquid.
Not necessarily just changing the surface area causes the rate to change. Changing the ratio of surface area volume changes the rate at which a solute dissolves in a solvent. If the surface area is larger and the volume of a solute is smaller or the same, then the rate at which the solute dissolves in a solvent increases. If the surface area is smaller and the volume of the solute is larger or the same, then the rate at which the solute dissolves in a solvent decreases.