Difference between revisions of "Cohesion"
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==Etymology== | ==Etymology== | ||
[[Latin]] cohaesus, past participle of cohaerēre | [[Latin]] cohaesus, past participle of cohaerēre | ||
| − | *Date: [ | + | *Date: [https://www.wikipedia.org/wiki/17th_Century 1660] |
==Definitions== | ==Definitions== | ||
*1 : the [[act]] or [[state]] of sticking [[together]] tightly; especially : [[unity]] <the lack of cohesion in the Party — Times Literary Supplement> | *1 : the [[act]] or [[state]] of sticking [[together]] tightly; especially : [[unity]] <the lack of cohesion in the Party — Times Literary Supplement> | ||
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'''Cohesion''' (n. lat. cohaerere "stick or stay [[together]]") or cohesive [[attraction]] or cohesive [[force]] is a [[physical]] [[property]] of a substance, caused by the [[Subatomic|intermolecular]] [[attraction]] between ''like''-[[molecules]] within a [[body]] or substance that [[acts]] to unite them. | '''Cohesion''' (n. lat. cohaerere "stick or stay [[together]]") or cohesive [[attraction]] or cohesive [[force]] is a [[physical]] [[property]] of a substance, caused by the [[Subatomic|intermolecular]] [[attraction]] between ''like''-[[molecules]] within a [[body]] or substance that [[acts]] to unite them. | ||
| − | [[Water]], for example, is strongly cohesive as each [[molecule]] may make four [ | + | [[Water]], for example, is strongly cohesive as each [[molecule]] may make four [https://en.wikipedia.org/wiki/Hydrogen hydrogen] bonds to other [[water]] [[molecules]] in a tetrahedral [[configuration]]. This results in a [[relatively]] strong [https://en.wikipedia.org/wiki/Coulomb_force Coulomb force] between [[molecules]]. [https://en.wikipedia.org/wiki/Van_der_Waals_forces Van der Waals] [[gases]] such as [https://en.wikipedia.org/wiki/Methane methane], however, have weak cohesion due only to Van der Waals forces that operate by induced [[polarity]] in non-polar molecules. |
| − | Cohesion, along with [ | + | Cohesion, along with [https://en.wikipedia.org/wiki/Adhesion adhesion] ([[attraction]] between ''unlike'' [[molecules]]), helps explain [[phenomena]] such as [https://en.wikipedia.org/wiki/Meniscus meniscus], [[surface]] tension and [https://en.wikipedia.org/wiki/Capillary_action capillary action]. |
| − | [ | + | [https://en.wikipedia.org/wiki/Mercury_(element) Mercury] in a [[glass]] flask is a good [[example]] of the [[effects]] of the [[ratio]] between cohesive and adhesive [[forces]]. Because of its high cohesion and low adhesion to the glass, mercury does not spread out to cover the bottom of the flask , and if enough is placed in the flask to cover the bottom, it exhibits a strongly convex meniscus, where the meniscus of water is [https://en.wikipedia.org/wiki/Concave concave] . Mercury will not wet the glass, unlike [[water]] and many other liquids, and if the glass is tipped, it will 'roll' around inside. |
[[Category: Chemistry]] | [[Category: Chemistry]] | ||
Latest revision as of 23:42, 12 December 2020
Etymology
Latin cohaesus, past participle of cohaerēre
- Date: 1660
Definitions
- 1 : the act or state of sticking together tightly; especially : unity <the lack of cohesion in the Party — Times Literary Supplement>
- 2 : union between similar plant parts or organs
- 3 : molecular attraction by which the particles of a body are united throughout the mass
Description
Cohesion (n. lat. cohaerere "stick or stay together") or cohesive attraction or cohesive force is a physical property of a substance, caused by the intermolecular attraction between like-molecules within a body or substance that acts to unite them.
Water, for example, is strongly cohesive as each molecule may make four hydrogen bonds to other water molecules in a tetrahedral configuration. This results in a relatively strong Coulomb force between molecules. Van der Waals gases such as methane, however, have weak cohesion due only to Van der Waals forces that operate by induced polarity in non-polar molecules.
Cohesion, along with adhesion (attraction between unlike molecules), helps explain phenomena such as meniscus, surface tension and capillary action.
Mercury in a glass flask is a good example of the effects of the ratio between cohesive and adhesive forces. Because of its high cohesion and low adhesion to the glass, mercury does not spread out to cover the bottom of the flask , and if enough is placed in the flask to cover the bottom, it exhibits a strongly convex meniscus, where the meniscus of water is concave . Mercury will not wet the glass, unlike water and many other liquids, and if the glass is tipped, it will 'roll' around inside.
