What determines if a reaction is exotermic or endotermic?

In summary, the conversation discusses the difference between endothermic and exothermic reactions, with a focus on the phase change from solid to liquid and combustion. It is explained that endothermic reactions require an input of heat to break intermolecular forces, while exothermic reactions release energy from the reforming of reactant molecules. The concept of entropy is also mentioned as a factor in determining when a phase change will occur.
  • #1
FG_313
17
1
Using a more physics oriented approach, rather than a chemistry one, and looking to an energy point of view if possible. For example, why when ice turns into water there is a need for energy (heat)? I know in some extent that the energy is used into re-organizing the chemical bonds, but that seems very superficial. And also I don't really understand the more general cases, like things burning and "making fire". Thank you for the responses in advance, anything will be helpfull.
 
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  • #2
Endothermic reactions (phase change from solid to liquid, or liquid to gas) require heat input to the system, as opposed to exothermic reactions which generate heat.

In the case of ice (solid) to water (liquid), the molecules of water require more kinetic energy (from an external source) to overcome the intermolecular forces.

In the case of combustion, the oxidizer (oxygen) combines with the fuel (e.g., hydrocarbon) whereby the molecules of oxygen and fuel (reactants) reform to products such as H2O and CO2, which releases the stored chemical energy from the bonds (C-C, C-H). Usually there is some initial energy to start the reaction, which then proceeds based on the energy generated from the reformation of fuel and oxygen molecules.
 
  • #3
Thank you very much for the fast response. However, when thinking about heat as chaotic motion of molecules, I get confused. How does an exothermic reaction or a combustion causes that kind of motion? And why does a more caotic motion of molecules causes an endothermic reaction to happen?
 
  • #4
I don't know what you mean with a more physics related approach. This is a classical topic of chemical thermodynamics, and it is less about the change of energy than about the change of entropy.
When melting water, you have to break hydrogen bonds between the water molecules. This costs energy. At the same time, the entropy increases, as a water molecule in liquid water have more degrees of freedom to move around.
Taking both things together, water will melt if the increase of entropy of the surrounding, which is given as ##\Delta H/T##, equals the entropy change of the liquid, which is ##\Delta S##. I. e. the melting temperature is given as ##T_m=\Delta S_m/\Delta H_m##.
 
  • #5
Thank you! But I meant a descripiton on how it happens and not "why"...
 

Related to What determines if a reaction is exotermic or endotermic?

1. What is the difference between an exothermic and endothermic reaction?

An exothermic reaction is a chemical reaction that releases heat, while an endothermic reaction is a chemical reaction that absorbs heat.

2. How do you determine if a reaction is exothermic or endothermic?

The enthalpy change (∆H) of a reaction is used to determine if a reaction is exothermic or endothermic. If the ∆H is negative, the reaction is exothermic, and if it is positive, the reaction is endothermic.

3. What factors influence the enthalpy change of a reaction?

The enthalpy change of a reaction is influenced by the strength of the bonds broken and formed during the reaction, as well as the temperature and pressure of the reaction.

4. Can a reaction be both exothermic and endothermic?

No, a reaction is either exothermic or endothermic. However, some reactions may have both exothermic and endothermic steps, resulting in an overall enthalpy change that is neither exothermic nor endothermic.

5. How does the enthalpy change affect the spontaneity of a reaction?

The enthalpy change does not directly affect the spontaneity of a reaction. However, the Gibbs free energy (∆G) takes into account both the enthalpy change and the entropy change of a reaction to determine if a reaction is spontaneous. A negative ∆G indicates a spontaneous reaction, while a positive ∆G indicates a non-spontaneous reaction.

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