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Concentration because solutions that are the same and temperature wise as well theoretically will have the same concentration
Its a ratio of solute in solutions. Concentration= (Mass of solute/Volume of solvent) * 100
Yes. The volume you have of a particular solution does not have anything to do with the concentration of that solution.
Blood volume and Concentration
Solution of different concentrations can be prepared by the adequate choice of the solute amount and the volume of the solvent.
No, they are very different properties. But the density depends on concentration for solutions. Density is the ratio mass/volume. Concentration is the amount of an element (or compound) in a given mass (or volume) of an another compound or mixture.
Concentration because solutions that are the same and temperature wise as well theoretically will have the same concentration
Factors that may affect Diffusion rates are: Temperature, Concentration, Different tissue types, Molecular size, Surface area to volume ratio.
Its a ratio of solute in solutions. Concentration= (Mass of solute/Volume of solvent) * 100
Yes. The volume you have of a particular solution does not have anything to do with the concentration of that solution.
Orange juice does not change volume when it is poured into a different container. Volume will change if the juice undergoes a process such as concentration.
Blood volume and Concentration
You can dilute it by adding more solvent. Many solutions are in water. Therefore, adding more water will decrease the concentration. C = n/v Concentration is inversely proportional to volume and directly proportional to the amount of solute. An increase in volume or a decrease in the amount of solute, will decrease concentration.
well,the amount will effect it along with density,volume and concentration
Solution of different concentrations can be prepared by the adequate choice of the solute amount and the volume of the solvent.
Relative concentration gives you a comparison of two or more solutions, telling you which has a higher concentration of some solute than the other. Precise concentration would normally be expressed in terms of moles per liter, and it tells you the actual amount of a solute that is present in a given volume of solution.
The concentration of a solution is basically how strong the solution is.