yeah the temperature does increase, when you increase the volume of water the temperature of calcium hydroxide increases too!
yes it does :) but to make sure it is right u need to search in the internet
The volume of water does not significantly affect the temperature rise in the reaction of calcium oxide and water. The temperature increase is primarily due to the exothermic nature of the reaction between calcium oxide and water, where heat is released. The amount of heat released is determined by the stoichiometry of the reaction, not the volume of water used.
The solubility increase with the temperature, consequently the concentratiom is greater in warm water: but for calcium hydrogen carbonate and calcium carbonate the difference is not important.
Carbonate will increase soil pH value, because it reacts with acid, but sulfate will not affect the pH.
An increase in temperature will cause an increase in volume, while a decrease in temperature will cause a decrease in volume.
the sea is warmer.
Some medication may affect body temperature. It can increase or decrease body temperature. I.e. tylenol may decrease temperature if you have fever. Some stimulant may increase temperature when used, etc.
An increase in temperature will reduce the density, reduce the viscosity, reduce thermal conductivity, and increase the specific heat capacity. A decrease in temperature will have the opposite affect.
No, the mass of calcium oxide does not affect the temperature rise when it reacts with water. The temperature rise is determined by the amount of energy released during the exothermic reaction between calcium oxide and water, which is constant regardless of the mass of calcium oxide used.
The rate increases
Increasing the temperature the reaction rate increase.
Yes, the volume of water can affect the temperature rise in the reaction between calcium oxide and water. A larger volume of water can absorb more heat energy released during the reaction, resulting in a lower temperature rise compared to a smaller volume of water. Additionally, the concentration of the resulting calcium hydroxide solution can also influence the temperature change.