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Interatomic Forces in Condensed Matter

Mike Finnis

Published in print:
2003
Published Online:
January 2010
ISBN:
9780198509776
eISBN:
9780191709180
Item type:
book
Publisher:
Oxford University Press
DOI:
10.1093/acprof:oso/9780198509776.001.0001
Subject:
Physics, Atomic, Laser, and Optical Physics

There is a continuing growth of interest in the computer simulation of materials at the atomic scale, using a variety of academic and commercial computer programs. In all such programs there is some ... More


INTERATOMIC FORCES AND MOLECULAR PROPERTIES

C. N. Hinshelwood

in The Structure of Physical Chemistry

Published in print:
2005
Published Online:
September 2007
ISBN:
9780198570257
eISBN:
9780191717659
Item type:
chapter
Publisher:
Oxford University Press
DOI:
10.1093/acprof:oso/9780198570257.003.0012
Subject:
Physics, Condensed Matter Physics / Materials

This chapter discusses the relationship between interatomic forces and certain other molecular characteristics that are more or less connected. Topics covered include vibration frequencies and force ... More


FORCES BETWEEN MOLECULES AND BETWEEN IONS

C. N. Hinshelwood

in The Structure of Physical Chemistry

Published in print:
2005
Published Online:
September 2007
ISBN:
9780198570257
eISBN:
9780191717659
Item type:
chapter
Publisher:
Oxford University Press
DOI:
10.1093/acprof:oso/9780198570257.003.0013
Subject:
Physics, Condensed Matter Physics / Materials

This chapter discusses interatomic forces. Topics covered include Van der Waals forces, interaction of zero-point oscillations, the induction effect, orientation effects, attractions and repulsions, ... More


Hooke’s Law: Elasticity

Brian Cantor

in The Equations of Materials

Published in print:
2020
Published Online:
September 2020
ISBN:
9780198851875
eISBN:
9780191886683
Item type:
chapter
Publisher:
Oxford University Press
DOI:
10.1093/oso/9780198851875.003.0010
Subject:
Physics, Condensed Matter Physics / Materials, Theoretical, Computational, and Statistical Physics

When a material is stretched, the extension is proportional to the stretching force, with the elastic modulus defined as the constant of proportionality. This is called Hooke’s law and was discovered ... More


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