increasing the temperature or pressure
the quantity of the solution
When using a solubility curve to make a prediction about the amount of a solute within a solution, you must increase the amount of solute to make a solution, which will give you a concentrated solution
Heat will increase solubility of solids but not for gases, pressure will increase solubility of gases, surface area of solids increases solubility, agitation increases solubility. __________________________________________________________ Well it depends on what experiment you are doing but i say it would be between the independent variable and the dependent variable.
The vast majority of compounds increase in solubility as the temperature increases.
increasing temperature obviously
When the pressure increase the solubility increase.
The term 'solubility of a solution' is meaningless. Perhaps you mean how do you increase the solubility of a solute in a solvent? In that case, if your solute is a solid, increase the temperature, and if it is a gas, decrease the temperature.
Raising the temperature of the solvent will increase the solubility ofa solute.
increase temperature
yesp
it decreases solubility.... by damion /\
The solubility increase with increasing temperatures.
The solubility of gases in liquids increase when pressure increase.
When using a solubility curve to make a prediction about the amount of a solute within a solution, you must increase the amount of solute to make a solution, which will give you a concentrated solution
no
The definition of solubility is "The maximum amount of solute dissolved in 100 g of solvent at a given temperature." To know the solubility we must know the maximum amount of solute dissolved in solvent. So solution is saturated when its solubility is determined.
The concentration; to prepare a solution the compound must have a solubility.
When you increase the temperature the solubility of a solute in a solution increases. This is due to the fact that heat is required to break the bonds that are holding the molecules in the solid together. Note that the opposite is true for gases, though.