Symmetry element
In chemistry and crystallography, a symmetry element is a point, line, or plane about which symmetry operations can take place. In particular, a symmetry element can be a mirror plane, an axis of rotation (either proper and improper), or a center of inversion.[1][2][3] For an object such as a molecule or a crystal, a symmetry element corresponds to a set of symmetry operations, which are the rigid transformations employing the symmetry element that leave the object unchanged. The set containing these operations form one of the symmetry groups of the object. The elements of this symmetry group should not be confused with the "symmetry element" itself. Loosely, a symmetry element is the geometric set of fixed points of a symmetry operation. For example, for rotation about an axis, the points on the axis do not move and in a reflection the points that remain unchanged make up a plane of symmetry.
Identity
The identity symmetry element is found in all objects and is denoted E.[4] It corresponds to an operation of doing nothing to the object. Because every molecule is indistinguishable from itself if nothing is done to it, every object possesses at least the identity element. An object having no symmetry elements other than E is called asymmetric. Such an object is necessarily chiral.[5]
Mirror planes
Mirror planes are denoted by σ. In a molecule that also has an axis of symmetry, a mirror plane that includes the axis is called a vertical mirror plane and is labeled σv , while one perpendicular to the axis is called a horizontal mirror plane and is labeled σh . A vertical mirror plane that bisects the angle between two C2 axes is called a dihedral mirror plane, σd .[6]
Rotational symmetry
Rotational symmetry, also known as radial symmetry, is represented by an axis about which the object rotates in its corresponding symmetry operation. A group of proper rotations is denoted as Cn, where the degrees of rotation that restore the object is 360/n (C2= 180º rotation, C3= 120º rotation, C4= 90º rotation, C5= 72º rotation).[4] The Cn notation is also used for the related, more abstract, cyclic group.
An improper rotation is the composition of a rotation about an axis, and reflection in a plane perpendicular to that axis.[2] The order in which the rotation and reflection are performed does not matter (that is, these operations commute). Improper rotation is also defined as the composition of a rotation about an axis, and inversion about a point on the axis.[3] These definitions are equivalent because inversion about a point is equivalent to rotation by 180° about any axis, followed by mirroring about a plane perpendicular to that axis. The symmetry elements for improper rotation are the rotation axis, and either the mirror plane, the inversion point, or both. The improper rotation group of order 2n is denoted S2n.
Inversion
For inversion, denoted i, there must be a point in the center of an object that is the inversion center. Inversion consists of passing each point through the center of inversion and out to the same distance on the other side of the molecule. In the inversion operation for 3D coordinates, the inversion center is the origin (0,0,0). When an object is inverted, the position vector of a point in an object, ⟨x,y,z⟩, is inverted to ⟨-x,-y,-z⟩.
Gallery
Ferrocene molecule, an object having S10 symmetry. Its symmetry elements are: a vertical rotation axis, a horizontal plane, and an inversion point at the center.
See also
- Symmetry
- Group theory
- Crystallography
- Hermann-Mauguin notation
- Schoenflies notation
References
- ↑ Robert G. Mortimer (10 June 2005). Mathematics for Physical Chemistry. Academic Press. pp. 276–. ISBN 978-0-08-049288-9. https://books.google.com/books?id=nGoSv5tmATsC&pg=PA276.
- ↑ 2.0 2.1 "Symmetry element". 2021-09-25. https://dictionary.iucr.org/Symmetry_element.
- ↑ 3.0 3.1 Wolff, P.M. de (1989). "Definition of symmetry elements in space groups and point groups. Report of the International Union of Crystallography Ad-Hoc Committee on the Nomenclature of Symmetry". Acta Crystallographica Section A 45 (7): 494–499. doi:10.1107/S0108767389002230. ISSN 0108-7673. http://scripts.iucr.org/cgi-bin/paper?S0108767389002230. Retrieved 2021-09-29.
- ↑ 4.0 4.1 Burns, Gerald; Glazer, A.M. (2013). Space Groups for Solid State Scientists. Elsevier. doi:10.1016/c2011-0-05712-5. ISBN 978-0-12-394400-9.
- ↑ Atkins, Peter (2006) (in English). ATKINS' PHYSICAL CHEMISTRY. Published in Great Britain by Oxford University Press: W.H. Freeman and Company. pp. 405. ISBN 0-7167-8759-8.
- ↑ Smart, Lesley (2005). Solid state chemistry : an introduction. Elaine Moore (3rd ed.). Boca Raton: CRC Press. ISBN 0-7487-7516-1. OCLC 56661923. https://www.worldcat.org/oclc/56661923.
Original source: https://en.wikipedia.org/wiki/Symmetry element.
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