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Yes.
The larger the surface area to volume ratio of a cell, the smaller its size (and vice versa).
As a cell becomes larger the surface area to volume ratio gets smaller. The volume increases by the square of the surface area. That is the main reason that one celled organisms are small.
Consider this:If a cube has side length d, then its volume is d3 and its surface area is 6d2.If I cut the cube into 8 smaller cubes by bisecting each edge, then the new side length is d/2, the sum of the volume is 8 * ((d/2)3) = d3, and the surface area is 8 * (6(d/2)2) = 12d2.Therefore, even though the volume stayed constant, the sum of the surface area increased when I cut a larger cube into small cubes. The increase in surface area will be larger and larger as the cube is cut into smaller and smaller pieces. Therefore a sugar cube always has less surface area than an equal mass of sugar crystals.Granulated sugar has more surface area than a sugar cube.
The volume increases faster. (proportional to the cube of the radius)The surface area increases slower. (proportional to the square of the radius)
Smaller particles have a larger surface area compared to larger particles, allowing them to dissolve more quickly because more solvent can come in contact with them. This increased surface area also means that smaller particles have more opportunities for interactions with the solvent, leading to more effective dissolution compared to larger particles. Therefore, smaller particles generally dissolve faster than larger particles.
The larger the exposed surface area, the faster the rate of evaporation, as there is more surface area for the liquid molecules to escape into the air. This is because more molecules are exposed to the air, increasing the likelihood of evaporation occurring. Conversely, a smaller exposed surface area will result in slower evaporation.
YES!answ2. Dissolution of a solid is a surface phenomenon. Smaller particles have more surface area than larger ones do. So they dissolve faster.
In general, smaller pieces react faster than larger pieces because they have a larger surface area for reactions to occur. This increased surface area allows for more interactions between the reactants, leading to a faster rate of reaction.
Smaller sugar particles have a larger surface area exposed to the surrounding water molecules, allowing for more interactions and faster dissolution. This increased surface area facilitates quicker diffusion of the sugar molecules into the water, resulting in faster dissolution.
Surface area affects evaporation rate by providing more area for the liquid molecules to escape into the air. A larger surface area allows for more molecules to evaporate at a faster rate compared to a smaller surface area. This is why a larger body of water will evaporate more quickly than a smaller one.
The larger the area the faster the evaporation.
Generally, the smaller the particle size of a substance, the faster it will dissolve. This is because smaller particles have a larger surface area for the solvent to interact with, allowing for quicker dissolution. Conversely, larger particles take longer to dissolve due to their reduced surface area for interaction with the solvent.
evaporation speed is determined by temperature, humidity and exposed surface area
It depends on percentage related to WHAT! You cannot express surface area as a percentage of volume since the dimensions are different. So the only percentage you can have is the suface area of the smaller rock as a percentage of the surface area of the larger rock. In that case, the answer, not surprisingly, is that the smaller rock has the smaller percentage surface area.It depends on percentage related to WHAT! You cannot express surface area as a percentage of volume since the dimensions are different. So the only percentage you can have is the suface area of the smaller rock as a percentage of the surface area of the larger rock. In that case, the answer, not surprisingly, is that the smaller rock has the smaller percentage surface area.It depends on percentage related to WHAT! You cannot express surface area as a percentage of volume since the dimensions are different. So the only percentage you can have is the suface area of the smaller rock as a percentage of the surface area of the larger rock. In that case, the answer, not surprisingly, is that the smaller rock has the smaller percentage surface area.It depends on percentage related to WHAT! You cannot express surface area as a percentage of volume since the dimensions are different. So the only percentage you can have is the suface area of the smaller rock as a percentage of the surface area of the larger rock. In that case, the answer, not surprisingly, is that the smaller rock has the smaller percentage surface area.
Surface area impacts dissolution rate by increasing the available area for the solvent to come into contact with the solute. A larger surface area means more solute particles are exposed to the solvent, allowing for a faster dissolution process. This is why powders dissolve faster than larger chunks of the same material.
Smaller pieces of a solute will dissolve more quickly than larger pieces. This is because the surface area of the smaller pieces is greater, allowing for more contact with the solvent and therefore faster dissolution.