Exothermic reaction: Difference between revisions

From Citizendium
Jump to navigation Jump to search
imported>David Martin
No edit summary
mNo edit summary
 
(6 intermediate revisions by 6 users not shown)
Line 1: Line 1:
{{subpages}}
{{TOC|right}}
In [[chemistry]], an '''exothermic reaction''' is one that releases [[energy]] in the form of [[heat]]. It is the opposite of an [[endothermic reaction]]. Expressed in a [[chemical equation]]:
In [[chemistry]], an '''exothermic reaction''' is one that releases [[energy]] in the form of [[heat]]. It is the opposite of an [[endothermic reaction]]. Expressed in a [[chemical equation]]:


:<math>reactants \rightarrow \; product + energy</math>
:<math>reactants \rightarrow \; products + energy</math>


==Overview==
==Overview==
Line 12: Line 14:
:<math>\Delta \;\!\!H = energy\;used\;in\;bond\;breaking\;reactions - energy\;released\;in\;bond\;making\;products</math>.
:<math>\Delta \;\!\!H = energy\;used\;in\;bond\;breaking\;reactions - energy\;released\;in\;bond\;making\;products</math>.


[[image:ac_com.png|300px|thumb|right|A sketch of an exothermic reaction]]
{{Image|ac_com.png|right|300px|A sketch of an exothermic reaction}}


by definition the enthalpy change has a negative value:
by definition the enthalpy change has a negative value:
Line 29: Line 31:
* Adding water to [[anhydrous]] [[copper(II) sulfate]]
* Adding water to [[anhydrous]] [[copper(II) sulfate]]
* The [[Thermite]] reaction
* The [[Thermite]] reaction
* Reactions taking place in a [[self-heating can]] based on [[Lime (mineral)|lime]] and [[aluminum]].
* Reactions taking place in a [[self-heating can]] based on [[Lime (mineral)|lime]] and [[aluminium]].


== Key points ==
== Key points ==
Line 36: Line 38:
* the conceptually related [[Warm-blooded|endotherm]] and [[Warm-blooded|exotherm]] are concepts in Animal physiology.
* the conceptually related [[Warm-blooded|endotherm]] and [[Warm-blooded|exotherm]] are concepts in Animal physiology.


== See also ==
==Attribution==
*[[Endergonic]]
{{WPAttribution}}
*[[Exergonic]]
*[[Endergonic reaction]]
*[[Exergonic reaction]]
*[[Exothermic]]
*[[Endothermic]]
*[[Endothermic reaction]]
*[[Warm-blooded|Endotherm]]
*[[Warm-blooded|Exotherm]]


==External links==
==Footnotes==
*[http://www.gcsescience.com/rc24.htm GCSE Science: Reactions]
<small>
<references>


[[Category:Chemistry Workgroup]]
</references>
</small>
 
[[Category:Suggestion Bot Tag]]

Latest revision as of 11:22, 4 September 2024

This article is developing and not approved.
Main Article
Discussion
Related Articles  [?]
Bibliography  [?]
External Links  [?]
Citable Version  [?]
 
This editable Main Article is under development and subject to a disclaimer.

In chemistry, an exothermic reaction is one that releases energy in the form of heat. It is the opposite of an endothermic reaction. Expressed in a chemical equation:

Overview

In an exothermic reaction, the total energy absorbed in bond breaking is less than the total energy released in bond making. In other words, the energy needed for the reaction to occur is less than the total energy provided. As a result of this, the extra energy is released, usually in the form of heat.

When using a calorimeter, the change in heat of the calorimeter is equal to the opposite of the change in heat of the system. This means that when the medium in which the reaction is taking place gains heat, the reaction is exothermic.

The absolute amount of energy in a chemical system is extremely difficult to measure or calculate. The enthalpy change, ΔH, of a chemical reaction is much easier to measure and calculate. A bomb calorimeter is very suitable for measuring the energy change, ΔH, of a combustion reaction. Measured and calculated ΔH values are related to bond energies by:

.
File:Ac com.png
A sketch of an exothermic reaction

by definition the enthalpy change has a negative value:

For an exothermic reaction, this gives a negative value for ΔH, since a larger value (the energy released in the reaction) is subtracted from a smaller value (the energy used for the reaction). For example, when hydrogen burns:

Examples of exothermic reactions

Key points

Attribution

Some content on this page may previously have appeared on Wikipedia.

Footnotes