enthalpy
(noun)
In thermodynamics, a measure of the heat content of a chemical or physical system.
(noun)
A measure of the heat energy content in a thermodynamic system.
Examples of enthalpy in the following topics:
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Change in Enthalpy
- Enthalpy (H) is a measure of the total energy of a thermodynamic system.
- Since the enthalpy of a system cannot be directly measured, we often concern ourselves with the change in enthalpy after a reaction has taken place.
- Since enthalpy is a state function, or pathway independent, the route that the reaction takes does not change the enthalpy value.
- By remembering and employing Hess's Law, the change in enthalpy for the overall reaction can be determined by adding up the enthalpies of the intermediate reactions.
- This lesson introduces Enthalpy and the energy of chemical bonding.
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Standard Enthalpy of Reaction
- The standard enthalpy of reaction is the enthalpy change that occurs in a system when a chemical reaction transforms one mole of matter under standard conditions.
- The standard enthalpy of reaction, $\Delta H^\ominus _{rxn}$, is the change in enthalpy for a given reaction calculated from the standard enthalpies of formation for all reactants and products.
- In order to calculate the standard enthalpy of a reaction, we can sum up the standard enthalpies of formation of the reactants and subtract this from the sum of the standard enthalpies of formation of the products.
- In order to calculate the standard enthalpy of reaction, we need to look up the standard enthalpies of formation for each of the reactants and products involved in the reaction.
- Next, we sum up our standard enthalpies of formation.
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Bond Enthalpy
- Bond enthalpy is defined as the enthalpy change when a covalent bond is cleaved by homolysis.
- The total enthalpy, H, of a system cannot be measured directly.
- Thus, the change in enthalpy, $\Delta H$, is a more useful quantity than its absolute value.
- Generally, a positive change in enthalpy is required to break a bond, while a negative change in enthalpy is accompanied by the formation of a bond.
- Describe the changes in enthalpy accompanying the breaking or formation of a bond
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Internal Energy and Enthalpy
- The enthalpy of reaction measures the heat released/absorbed by a reaction that occurs at constant pressure.
- We will examine the change in enthalpy for a reaction at constant pressure, in order to see why enthalpy is such a useful concept for chemists.
- Let's look once again at the change in enthalpy for a given chemical process.
- Due to this relation, the change in enthalpy is often referred to simply as the "heat of reaction."
- An explanation of why enthalpy can be viewed as "heat content" in a constant pressure system.
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Standard States and Standard Enthalpy Changes
- The standard enthalpy of formation refers to the enthalpy change when one mole of a compound is formed from its elements.
- The standard enthalpy of formation, or standard heat of formation, of a compound is the change in enthalpy that accompanies the formation of one mole of the compound from its elements in their standard states.
- For example, the standard enthalpy of formation for carbon dioxide would be the change in enthalpy for the following reaction:
- Note that standard enthalpies of formation are always given in units of kJ/mol of the compound formed.
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Exothermic and Endothermic Processes
- We will explore these concepts in more detail after introducing the concept of enthalpy.
- Since the total enthalpy of a system cannot be measured directly, we most often refer to the change in enthalpy for a particular chemical reaction.
- Due to this relation, the change in enthalpy, $\Delta H$, is often referred to as the "heat of reaction."
- As such, the change in enthalpy for an endothermic reaction is always positive.
- Therefore, the change in enthalpy is negative, and heat is released to the surroundings.
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Thermochemical Equations
- Thermochemical equations are chemical equations which include the enthalpy change of the reaction, $\Delta H_{rxn}$ .
- Enthalpy (H) is a measure of the energy in a system, and the change in enthalpy is denoted by $\Delta H$.
- Since enthalpy is a state function, the value of $\Delta H$ is independent of the path taken by the reactions to reach the products.
- A thermochemical equation is a balanced stoichiometric chemical equation which includes the enthalpy change.
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Hess's Law
- Hess's Law sums the changes in enthalpy for a series of intermediate reaction steps to find the overall change in enthalpy for a reaction.
- Negative enthalpy change for a reaction indicates exothermic process, while positive enthalpy change corresponds to endothermic process.
- The change in enthalpy for this reaction cannot be determined experimentally.
- However, because we know the standard enthalpy change for the oxidation for these two substances, it is possible to calculate the enthalpy change for this reaction using Hess's law.
- By Hess's law, the net change in enthalpy of the overall reaction is equal to the sum of the changes in enthalpy for each intermediate transformation: ΔH = ΔH1+ΔH2+ΔH3.
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Comparison of Enthalpy to Internal Energy
- Internal energy and enthalpy are both measurements that quantify the amount of energy present in a thermodynamic system.
- Enthalpy (H) encompasses both the internal energy of a system and the energy associated with displacing the system's surroundings.
- Simply put, enthalpy accounts for heat flow within a system.
- Therefore, to account for both the possible volume change at constant pressure and the internal energy, enthalpy is used.
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Energy Changes in Chemical Reactions
- This stored chemical energy, or heat content, of the system is known as its enthalpy.
- In exothermic reactions, the products have less enthalpy than the reactants, and as a result, an exothermic reaction is said to have a negative enthalpy of reaction.
- In endothermic reactions, the products have more enthalpy than the reactants.
- Thus, an endothermic reaction is said to have a positive enthalpy of reaction.