Thedecompositionof water is endothermic since energy is required to break up the bonds between the hydrogen and oxygen in the water molecule. Therefore the decomposition of water absorbs energy, making the reaction an endothermic one.
All around us are chemical products; and chemicals are obtained by endothermic or exothermic reactions.
Exothermic. Glucose is one of the major source of energy of the body and can only act as an energy source because its breakdown into CO2 is an exothermic reaction.
Endothermic reactions require energy while exothermic reactions release energy.
yes it is because you absorb carbon dioxide and water to produce sugar in photosynthesis.
The decomposition of NOBr is endothermic, meaning it requires an input of energy to break down the compound into its constituent elements (NO and Br₂).
Yes, obtaining lime from limestone is an exothermic process. During this process, limestone (CaCO3) undergoes thermal decomposition to form lime (CaO) and carbon dioxide gas (CO2), releasing heat in the process.
The decomposition of phosphorus pentachloride (PCl5) is endothermic because it requires energy to break the bonds holding the compound together. This process absorbs heat from the surroundings, resulting in a decrease in temperature.
Thedecompositionof water is endothermic since energy is required to break up the bonds between the hydrogen and oxygen in the water molecule. Therefore the decomposition of water absorbs energy, making the reaction an endothermic one.
Endothermic means that a reaction needs heat to occur. Limestone needs to be heated to decompose into calcium oxide and carbon dioxide
The decomposition of hydrogen peroxide is exothermic because it releases heat as the reaction proceeds.
Freezing is exothermic, as the substance that is freezing loses energy to its surroundings.
Breaking bonds is an endothermic process because it requires energy input to overcome the attractive forces holding the atoms together in a molecule. This energy input is needed to break the bonds, resulting in the absorption of heat.
Exothermic reactions can be both decomposition reactions (breaking down a compound into simpler substances) and synthesis reactions (forming a compound from simpler substances). The key factor that determines whether a reaction is exothermic is whether it releases heat to its surroundings.
An endothermic compound absorbs heat or energy from its surroundings during a chemical reaction, causing a decrease in temperature. An exothermic compound releases heat or energy into its surroundings during a chemical reaction, causing an increase in temperature.
The opposite of exothermic is endothermic. Exothermic reactions are those which give off energy in the form of heat. Endothermic reactions require energy.
endothermic