The dissolution is endothermic.
It is not a chemical reaction, it is dissolution; this physical process is exothermic.
it is exothermic since it produces energy. if endothermic it would use up energy.
The dissolution of borax in water is an endothermic process, meaning it absorbs heat from its surroundings. This is because energy is required to break the bonds in the solid borax and allow it to dissolve in water.
endothermic but don't know why? As AN crystals are formed the reaction is exothermic. Endothermic when it melts back with water. This is the reason AN is used in cold packs.
The dissolution is endothermic.
The dissolution of potassium nitrate in water is an endothermic process.
It is not a chemical reaction, it is dissolution; this physical process is exothermic.
it is exothermic since it produces energy. if endothermic it would use up energy.
The dissolution of calcium chloride in water is exothermic, meaning it releases heat. This reaction results in an increase in temperature of the solution.
The dissolution of borax in water is an endothermic process, meaning it absorbs heat from its surroundings. This is because energy is required to break the bonds in the solid borax and allow it to dissolve in water.
The process of dissolving solid KBr in water and the resulting decrease in temperature is an exothermic reaction. This means that heat is being released to the surroundings during the dissolution process.
The dissolution of lithium iodide is typically exothermic because more energy is released when the bonds in the solid lithium iodide are broken than is required to break the bonds between water molecules.
endothermic but don't know why? As AN crystals are formed the reaction is exothermic. Endothermic when it melts back with water. This is the reason AN is used in cold packs.
The process is endothermic because the water is absorbing heat from the kettle. When energy (heat) is released as steam this is exothermic.
The dissolution of ammonium chloride in water is an endothermic process, meaning it absorbs heat from its surroundings. This is because breaking the ionic bonds in solid ammonium chloride requires energy, resulting in a decrease in temperature.
Salt is not inherently endothermic; rather, it can exhibit endothermic properties in certain situations. For example, when salt dissolves in water, it can absorb heat from the surroundings, leading to an endothermic process. This is because breaking the ionic bonds in salt requires energy, which is supplied by the surroundings in the form of heat.