To dissolve something, usually you stir it or break it up into smaller pieces. This is because, with increased surface area, there is more area for the solvent to work on the substance. Further, by heating something up usually it breaks bonds, causing something to dissolve more readily.
Some things:Agitation: As in, the number of collisions within the molecules. This is why we stir when we are dissolving something.. more collision will increase rate.Temperature: The higher the temperature, the more energy the solution will have, hence more space between the molecules because they move around so much. This means more kinetic energy.Surface area: Meaning the area of contact within the solute and the solvent. More surface area = faster dissolving.
Solubility can be increased in solvent and by adding more solute.
Stirring will mix up the solvent, meaning parts of the solvent that were saturated are moved away from whatever is dissolving, and it can dissolve with other parts of the solvent that are not saturated.
if the water is hot,the solvent will dissolve faster and when it gets stirred it will dissolve even faster than when it wasn't. but if the water is cold it will dissolve slower than hot water even when stirred.
depends how many bums are fighting for it, and how hungry you are
The three factors that affect the dissolving process are temperature (higher temperature typically increases the rate of dissolving), surface area (smaller particles dissolve faster), and stirring or agitation (increases contact between solvent and solute, speeding up dissolving).
Factors such as temperature, stirring/mixing, surface area of the solid, and the nature of the solvent can affect the rate at which a substance dissolves. Cooler temperatures, lack of stirring, smaller surface area, and low solubility of the solute in the solvent can slow down the dissolving process.
The three factors that affect the rate of dissolving are temperature, agitation, and surface area. Increasing the temperature, stirring or shaking the solution, and breaking the solute into smaller pieces can all help speed up the dissolving process.
Yes, in fact stirring does increase the rate of dissolving [or dissolution] of solids.
Three factors that affect the rate at which a substance dissolves are temperature, surface area of the substance, and the stirring or agitation of the solution. Increasing the temperature generally increases the rate of dissolving, while breaking the substance into smaller pieces or increasing its surface area also speeds up the process. Stirring or agitation helps to bring fresh solvent into contact with the solute, enhancing the dissolving rate.
The main factors that affect how fast a solid solute dissolves in a solvent are temperature (higher temperature usually leads to faster dissolving), surface area of the solute (smaller particles dissolve faster), stirring or agitation of the mixture, and the concentration of the solute in the solvent.
the factors that affect sollubilty are * stirring * temperature * state of subdivision * the surface area
1. increase the area of the solute by breaking into smaller pieces. 2. energise by raising temperature. 3. energise by stirring or shaking.
Temperature, Pressure, Polarity, Surface Area, and Agitating the Mixture.
Temperature and particle size of the solid will affect both the rate of dissolving and the solubility in a liquid. Higher temperatures generally increase the rate of dissolving and solubility, while smaller particles increase the rate of dissolving due to increased surface area available for interaction with the solvent.
Some things:Agitation: As in, the number of collisions within the molecules. This is why we stir when we are dissolving something.. more collision will increase rate.Temperature: The higher the temperature, the more energy the solution will have, hence more space between the molecules because they move around so much. This means more kinetic energy.Surface area: Meaning the area of contact within the solute and the solvent. More surface area = faster dissolving.
How do the following factors affect the rate of dissolving for temperature change