Wiki User
∙ 16y agoIt wouldn't necessarily. The five main considerations are: Substance to be dissolved Liquid to use Mass Surface area Temperature Since in this example the liquid and substance to be used are constant the only considerations are mass and surface area. If you took a big lump of clay and rolled it into a ball it would have a given surface area, if you then flattened out that ball of clay it would still have the same mass and volume but a much greater surface area. Dissolving eats away at the surface area, the more surface area exposed per unit of mass/volume the quicker a substance will dissolve. So it doesnt necessarily take longer to dissolve bigger masses, you could have 1 kilo of ice in a perfectly spherical ball and 2 kilos in a huge flat sheet 1mm thick and that would dissolve quicker. Hope this helps, Professor D. Moores
Manchester, UK
Wiki User
∙ 16y agoLarger mass solids have more particles that need to be broken down and dispersed in the solvent, requiring more time for complete dissolution. The increased mass also means a larger surface area that needs to be exposed to the solvent for dissolution to occur, further contributing to the longer dissolution time.
The surface area of the solid increases with smaller particle sizes, leading to faster dissolution due to increased contact with the solvent. Smaller particles expose more of their surface area, allowing for more efficient interaction with the solvent molecules. As a result, smaller particles dissolve more quickly than larger ones.
The rate at which solids dissolve in water depends on factors such as temperature, surface area of the solid, agitation, and the solubility of the substance. Generally, smaller particles dissolve faster due to increased surface area for interaction with the solvent.
No, not all solid particles dissolve in water. Only particles that are polar or have ionic bonds will dissolve in water due to water's polar nature. Nonpolar particles, like oils and fats, will not dissolve in water because they are not attracted to water molecules.
The liquid is called a solvent. It has the ability to dissolve solid particles, forming a solution.
If you try to dissolve a lot of solid in a small amount of liquid, you may reach a point where the liquid becomes saturated and can no longer dissolve any more of the solid. The excess solid will remain undissolved at the bottom of the container.
bigger.
1. stir the content continuously2. Heat3. Break the solid into smaller particles.
The smaller the particles, the more quickly and easily they dissolve. A powdered solute will dissolve faster than a large piece of the same solute.
Gas or solid
YES!answ2. Dissolution of a solid is a surface phenomenon. Smaller particles have more surface area than larger ones do. So they dissolve faster.
If the solid is soluble (can dissolve) then it will dissolve in the liquid and give you a solution.
The surface area of the solid increases with smaller particle sizes, leading to faster dissolution due to increased contact with the solvent. Smaller particles expose more of their surface area, allowing for more efficient interaction with the solvent molecules. As a result, smaller particles dissolve more quickly than larger ones.
Solid doesn't spread.
In the water
you put: a squared over b squared = surface area of the smaller solid over surface area of the bigger solid
you can cut the solid into smaller pieces increasing surface area, heat the water or acidify the water
Salt is a solid; water can dissolve candies.