It's normally better to do a series of small ones, 2 or 3 should be plenty.
The reason is that if each time you get for example 95% extraction, you stand a better chance of retaining more product from a multiple extraction.
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.
Sonication creates cavitation bubbles that collapse, generating shock waves and microjets which break down solvent-solvent interactions and aid in dispersing particles. This disruption leads to an increase in the total volume of solvent due to the incorporation of gas bubbles and the reduction of solvent density in the cavitation zone.
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.
Concentration is typically given with the volume of solution. This allows for a consistent measurement of how much solute is present in the entire solution, regardless of the volume of solvent used to make the solution.
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.
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.
Dilute solution contain small amounts of solute for a certain volume of solvent.
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.
Sonication creates cavitation bubbles that collapse, generating shock waves and microjets which break down solvent-solvent interactions and aid in dispersing particles. This disruption leads to an increase in the total volume of solvent due to the incorporation of gas bubbles and the reduction of solvent density in the cavitation zone.
The solvent is the greater of the two dissolved quantities.
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.
Concentration is typically given with the volume of solution. This allows for a consistent measurement of how much solute is present in the entire solution, regardless of the volume of solvent used to make the solution.
You don't. When you make a solution, the solvent is measured by volume; most likely milliliters instead of millimeters.
Depends on: * mass or volume of solvent * type of salt * type of solvent * heat input * agitation of solvent
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.
This statement is incorrect. If you add a solute to a solvent the total volume is not equal to the volume of the solute plus the volume of the solvent. This seems counterintuitive but when adding two different compounds together these compounds may stack together better or worse than they would separately. This can be seen very readily when mixing pure ethanol and water. It also results in the fact that using normal distillation methods you cannot get ethanol more pure than 95%. Hope that helps
The concentration of solution is simply defined as the amount of solute present in a given amount (mass or volume) of solution, or the amount of solute dissolved in a given mass or volume of solvent. In other words, it is a term used to express how much of solute is dissolved in a particular quantity of solvent or solution. Hope this helps:)