The rate decreases.
A decrease in radiative equilibrium temperature
Temperature is lowered. Humidity is increased in a cold front.
The solubility of gas increases as the temperature decreases.
They begin to move faster. The increased temperature increases the energy of the molecule.
Solid crystals of sugar should begin to precipitate throughout the solution.
The rate decreases.
Salt release slowly the heat of dissolution and the temperature is increased.
The solution will become unsaturated as the saturated concentration will increase. Solubility increases with temperature.
What happens depends on the temperature coefficient of the diode. If that diode has a positive temperature coefficient, it resistance increases with increased temperature. A diode with a negative temperature coefficient does the opposite.
A decrease in radiative equilibrium temperature
Solution will be diluted.pH of the solution is increased.
A solution can be obtained.
I presume from category that the question ask about the heat of dissolution. Assume the solvent and solution is at thermal equilibrium. Adding more solvent would yield change in interaction for non ideal solution and thus it could yield increase or decrease of temperature depend on the infinite heat of solution of the solute that we interested in. Adding more solvent would not yield temperature change for ideal solution.
It increases.
I presume from category that the question ask about the heat of dissolution. Assume the solvent and solution is at thermal equilibrium. Adding more solvent would yield change in interaction for non ideal solution and thus it could yield increase or decrease of temperature depend on the infinite heat of solution of the solute that we interested in. Adding more solvent would not yield temperature change for ideal solution.
The solubility of solids in water increases with the increasing temperature.
The pressure of a gas increases with an increase in temperature.