There is no such thing as "surface area" of "solubility" since the latter refers to the maximum concentration in the solution of a solid (or liquid) in a liquid. "Surface area", as applied to such a phenomenon is meaningless. However, by *increasing* the surface area of, say, a salt, by grinding it, will increase its solubility. Maybe *that* is what the questioner meant.
In: Math, Geometry [chemistry]
It is the surface area of the two ends plus the surface area of the curved surface. Surface area of each end is pir2 Surface area of the curved surface is 2pirh Total surface area = 2pir2 + 2pirh
To obtain the ratio of surface area to volume, divide the surface area by the volume.
The same volume of an object, The simplest regular tetrahedron polyhedron, calculate the surface area. The surface area is pentahedral small surface area than the regular tetrahedron Regular hexahedron surface area than the surface area is small pentahedral . . . . If it is known is N-face surface area of ​​the body, there are N +1 is smaller the surface area of ​​the surface When N tends to infinity for a long time, Serve the sphere surface. ------mecose
it is still surface area
In: Math, Geometry [chemistry]
Nothing. Solubility depends of temperature and pressure, not surface area. At the same temperature and pressure C02 has the same solubility, whether you have 10 cm square surface area or 1000 cm2. Maybe you meant the rate of diffusion?
Particle size affects solubility. When particle size is small, the surface area per unit volume is larger, thus the solubility is increased.
Concentration, Surface Area, Inhibitor, A Catalyst, Solubility
Particle size affects solubility. When particle size is small, the surface area per unit volume is larger, thus the solubility is increased.
Factors affecting the solubility:1. the nature of solute/solvent (chemical composition, polarity)2. temperature3. pressure4. stirring5. surface area of the solute6. some added compounds7. amount of the solute 8. the geometry of the beaker
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 most important effect is temperature. As temperature increases, the solubility of most solid solutes increases. At different temperature, the Ksp value for salts fluctuates. With the Ksp value of the solute, you can determine the concentrations of the ions formed. Surface area also plays an important part. The more surface area, the faster a solute will dissolve
1. the nature of solute/solvent 2. temperature 3. pressure 4. stirring 5. surface area of the solute
Some factors that impact solubility are temperature, surface area, polarity, and pressure. As education-portal states:"To summarize:Like dissolves likeGreater surface area increases dissolvabilityTemperature increases dissolvabilityEnthalpy and entropy affect dissolvability of salts"
Water cohesion causes surface tension related to solubility. Polarity is also related to solubility in that polar substances dissolve better in polar solvents, such as water.
Factors affecting solubility:1. the nature of solute/solvent (chemical composition, polarity)2. temperature3. pressure4. stirring5. surface area of the solute6. some added compounds7. amount of the solute 8. the geometry of the beaker