Question

Compare the energy required to break the bonds of the reactants and the energy released when products form in an exorgonic reaction

Answer 1

Answer: There is less energy required to break the original bonds than there is to release new bonds

Step-by-step explanation:

In any chemical reaction, energy is absorbed or released (usually as heat or light). This is because when bonds are broken and formed, energy is absorbed and released respectively. The energy absorbed in the bonds that are broken is greater than the energy released in the bonds that are formed. So, there are two types of reactions:

• Exothermic (gives off energy, is associated with negative sign): The energy released in the new bonds that are formed is greater than that used in the bonds that are broken.

• Endothermic (they absorb energy, a positive sign is associated with them): The energy absorbed in the links that are broken is greater than the energy released in the links that are formed.

So, there is less energy required to break the original bonds than there is to release new bonds.

Answer 2

When products form in an exergonic reaction, the energy required to break bonds is less than the energy released from new bonds. This is usually given off as light. I hope this is the answer you are looking for. Looking forward to help you again. Have a great day ahead!