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What will increasing the surface area of a solid do to the dissolving rate of that solid?
It will increase it, as more of the outer surface of the solid is incontact with the liquid that it is dissolving in. :)
If the surface area of a sphere is increased by a factor of 4 what is the change in the length of the radius of the sphere?
The area of a sphere is A=4*3.14 * r^2. Thus the area varies as the square of the radius. If the surface area is increased by a factor of 4, then the radius will have to increase by the square root of 4 which is 2.
The speed of a person parachuting when the surface area?
S(100)
If each edge of a cube is increased by 100 percent what is the percent of increase of the surface area of the cube?
1200 percent
What effect does the scale factor have on the area of the enlargement?
The area of the enlargement is increased by (sf)2.The area of the enlargement is increased by (sf)2.The area of the enlargement is increased by (sf)2.The area of the enlargement is increased by (sf)2.
What three factors can speed up the rate of something dissolving?
Three factors that can speed up the rate of something dissolving are increasing the temperature of the solvent, increasing the surface area of the solute, and stirring or agitating the solution.
How does breaking up a solid speed dissolving in liquid?
By breaking up the solid, you are creating more surface area. Therefore, increasing the surface area will speed up dissolution.
How fast a solute dissolves in solvent?
The rate at which a solute dissolves in a solvent depends on factors such as temperature, the surface area of the solute, stirring/agitation, and the nature of the solute and solvent. Generally, higher temperatures, greater surface area, and increased agitation can all speed up the dissolving process.
How does grinding speed up dissolving?
By grinding the surface area of the sample increase and the contact between the solvent and solute is improved.
Will a substance dissolve faster if it is ground into powder first?
Yes, grinding a substance into powder can increase its surface area, which allows for faster dissolution because more of the substance is exposed to the solvent at once. This increased surface area helps the solvent to interact with the solute more effectively, speeding up the dissolving process.
What does not speed up dissolving?
The size of the solute particles does not speed up the process of dissolving. The rate of dissolving is typically influenced by factors such as temperature, agitation, and surface area of the solute particles exposed to the solvent.
What are the 3 things speed up dissolving?
Three things that can speed up the dissolving process are increasing the temperature of the solvent, stirring or agitating the solution, and increasing the surface area of the solute by breaking it into smaller pieces.
Why do we increase the why do we increase the surface area of a solid when dissolving?
We increase the surface area of a solid when dissolving to speed up the dissolution process. This is because a larger surface area allows for more contact between the solid and the solvent, leading to faster and more efficient dissolution. Additionally, increasing the surface area can also help achieve a more uniform dissolution throughout the solid.
What does increasing the surface area do to the speed of dissolving?
Increasing the surface area of a solute can increase the speed of dissolving because it allows for more contact between the solute and solvent, leading to faster dissolution. This is because more solute particles are exposed to the solvent at the same time, increasing the rate at which the solute can be surrounded and dispersed by the solvent molecules.
How does surface area affect dissolving?
Directly proportional
What will increasing the surface area of a solid do to the dissolving rate of that solid?
It will increase it, as more of the outer surface of the solid is incontact with the liquid that it is dissolving in. :)
How does increasing the amount of solvent speed up the dissolving process?
By breaking up the solute, the surface area between the solute and solvent is increased, meaning the solute can more easily dissolve into it's components.
