Solubility of gases are most affected by the pressure.
no becuse the compund is conacted by strong inter molcular force
Depends on what the sovlent and solute are.
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.
The amount of solute that can be dissolved in a solvent has many factors. These include: the strength of the solvent, the temperature of the solvent, whether the solute is soluble or not. There is no definite answer to the question.
The rate of formation of a solution is influenced by the surface area of the solute particles, temperature of the solvent, and the degree of mixing or agitation between the solute and solvent. A higher surface area, temperature, and mixing all tend to increase the rate of solution formation.
no becuse the compund is conacted by strong inter molcular force
Its solubility.
Depends on what the sovlent and solute are.
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.
The amount of solute that can be dissolved in a solvent has many factors. These include: the strength of the solvent, the temperature of the solvent, whether the solute is soluble or not. There is no definite answer to the question.
The rate of formation of a solution is influenced by the surface area of the solute particles, temperature of the solvent, and the degree of mixing or agitation between the solute and solvent. A higher surface area, temperature, and mixing all tend to increase the rate of solution formation.
The polarity of solute and solvent, the concentration, the temperature.
It depends on the solvent, the solute, and the temperature.
Water potential gradients are influenced by factors such as solute concentration, pressure, and temperature. The movement of water from an area of higher water potential to an area of lower water potential is driven by these gradients.
Increasing the temperature more solute is dissolved.
The higher the temperature the faster the solute dissolves and mixes with the solvent substances.
A solution becomes supersaturated when the temperature is raised because higher temperatures increase the solubility of most solutes, allowing more of the solute to dissolve in the solvent. When the solution is then cooled without any solute precipitating out, it can hold more solute than it normally would at the lower temperature, resulting in a supersaturated state. This condition is unstable, and any disturbance can cause the excess solute to crystallize out.