Reduce the rocks exposure
It is increased by applied energy, stirring, temperature, more surface area...
Decreasing temperature would not increase the rate at which a solid dissolves
Increasing the pressure over a solid solute has virtually no effect on the rate that it dissolves. Stirring and increasing the temperature are the best methods for increasing the rate at which a solid solute dissolves.
It increases the rate at which the solute dissolves.
Increased Population
Reduce the rocks exposure
Shaking affects the rate at which a solute dissolves because it increases the molecular activity of the solute within the solvent. When the molecular activity is increased, the rate of dissolving is also increased.
It is increased by applied energy, stirring, temperature, more surface area...
Decreasing temperature would not increase the rate at which a solid dissolves
Decreasing temperature would not increase the rate at which a solid dissolves
The rate of dissolving would be temperature dependent.
An increased rate of breathing as a result of an increased buildup of carbon dioxide in the bloodstream would be best described as an example of?
Increased solar flux would do the job nicely.
Increased heart rate and increased stroke volume
Increasing the pressure over a solid solute has virtually no effect on the rate that it dissolves. Stirring and increasing the temperature are the best methods for increasing the rate at which a solid solute dissolves.
"Increased vagal stimulation would cause..." The heart rate to decrease.
It increases the rate at which the solute dissolves.