It is exothermic. Energy is released as heat.
exothermicby Arindam
No, the reaction between copper sulfate and hydrochloric acid is exothermic, meaning it releases heat. This is because energy is released when the products are formed, making the overall reaction exothermic.
The reaction of making copper oxide from copper carbonate is endothermic because it requires heat to break the chemical bonds in the reactants and form the products. This means that energy is absorbed from the surroundings during the reaction.
The dehydration of hydrated copper II sulfate is an endothermic reaction because energy in the form of heat is required to break the bonds holding the water molecules within the crystal lattice of the compound. This results in the absorption of heat from the surroundings.
An exothermic reaction. Simple reactions that could fall into this category involve the burning of fuels, the addition of water to anhydrous Copper(II) Sulphate and the addition of water to Calcium Oxide (Slaked Lime).
exothermicby Arindam
No, the reaction between copper sulfate and hydrochloric acid is exothermic, meaning it releases heat. This is because energy is released when the products are formed, making the overall reaction exothermic.
Copper is neither exothermic nor endothermic. Exothermic and endothermic describe reactions that release or absorb heat, respectively. Copper itself does not undergo a reaction that releases or absorbs heat, so it does not fall into either category.
Copper oxidation is endothermic.
The reaction of making copper oxide from copper carbonate is endothermic because it requires heat to break the chemical bonds in the reactants and form the products. This means that energy is absorbed from the surroundings during the reaction.
The dehydration of hydrated copper II sulfate is an endothermic reaction because energy in the form of heat is required to break the bonds holding the water molecules within the crystal lattice of the compound. This results in the absorption of heat from the surroundings.
The reaction is highly exothermic as heat energy is released from the system to the surroundings whereas in endothermic the heat is absorbed from the surroundings into the system and you can also observe or see the smoke coming out of the apparatus in which the reaction is occurring or taking place.Heat energy is being released in the form of smoke.Therefore the reaction is exothermic.
Oh, dude, you're asking about chemistry now? Well, technically, dissolving anhydrous copper II sulfate in water is an endothermic reaction because it absorbs heat from its surroundings. So, yeah, it's not exothermic, but hey, at least you're learning something, right?
An exothermic reaction. Simple reactions that could fall into this category involve the burning of fuels, the addition of water to anhydrous Copper(II) Sulphate and the addition of water to Calcium Oxide (Slaked Lime).
No reaction
magnesium+copper sulphate =no reaction
Iron(Fe) + Copper Sulphate(CuSO4) → Iron Sulphate(Fe2SO4) + Copper(Cu)[Displacement Reaction]