The rate decreases.
Solubility of CO2 in water decreases with temperature, so as temperature is increased, the concentration of CO2 decreases.
To prevent the solution from recrystallizing, which will happen when the temperature drops
The temperature of the water/salt solution will equalize to room temperature.
the concentration of this solution is going to reduce.< Lets assume that the solution is comprised of water and salt> Then the water at a certain temperature begins to evaporate unlike the salt. at the end of the process, yes we agree that the solution has finally come to a room temperature, but concentration was lost during cooling. I mean that the solution becomes less concentrated
They get hotter and evaporate more quickly. When the liquid reaches the evaporation point of one of its constituents, the temperature stops increasing while that part evaporates.
It increases.
Nothing if nothing evaporates.
increased
the range of energies becomes broader, or increases, as the temperature is increased.
Increase
It's Pressure would rise.
The temperature of the solution will decrease. The dissolving of NH4Cl in water is endothermic.
It can happen. Then there is no solution!It can happen. Then there is no solution!It can happen. Then there is no solution!It can happen. Then there is no solution!
Solubility of CO2 in water decreases with temperature, so as temperature is increased, the concentration of CO2 decreases.
To prevent the solution from recrystallizing, which will happen when the temperature drops
The temperature of the water/salt solution will equalize to room temperature.
Most likely this would result in increased desertification. Deserts would become hotter and encroach more upon surrounding landscapes.