Thermal expansion coefficient and bulk modulus

Jan 12, 2013

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x. 0. T 2 =T 1 +. A. x. Thermal expansion coefficient and bulk modulus. P=const. x. x. Proportionality constant defines. 0. T 1. Thermal expansion coefficient. x. 0. A. x. x. P 1. P 2 =P 1 + P. 0. x. Proportionality constant defines. T=const. T=const.

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Thermal expansion coefficient and bulk modulus

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x 0 T2=T1+ A x Thermal expansion coefficient and bulk modulus P=const x x Proportionality constant defines 0 T1 Thermal expansion coefficient
x 0 A x x P1 P2=P1+P 0 x Proportionality constant defines T=const. T=const. Bulk modulus
air iron Let’s calculate the thermal expansion and bulk modulus for our simple solid where and Bulk modulus 1 Thermal expansion coefficient 2 We show later that this relation holds in general independent of the special model of a simple solid but Numerical examples:

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Thermal expansion coefficient and bulk modulus

Thermal expansion coefficient and bulk modulus

Presentation Transcript

Thermal Expansion

Computing lattice constant, bulk modulus and equilibrium energies of solids

Thermal Expansion

12.4 Linear Thermal Expansion

Conductivity Permeability Bulk Modulus

Negative Thermal Expansion of Cyanides

Thermal Expansion

THERMAL EXPANSION

Laser-assisted Thermal-expansion Microinjector

Thermal Expansion

Thermal Expansion

Thermal expansion coefficient and bulk modulus

Temperature, Heat &amp; Thermal Expansion

Radiation-Pressure and Thermal expansion

Warming of Ocean and Thermal Expansion

Zeolites and Negative Thermal Expansion

Thermal Expansion

Linear Thermal Expansion

Chapter 17 Temperature, Thermal Expansion

Computing lattice constant, bulk modulus and equilibrium energies of bulk cubic SrTiO 3

Thermal Expansion

Pressure Derivatives of Bulk Modulus, Thermal Expansivity and Grüneisen Parameter for MgO at High Temperatures and High

Temperature, Heat & Thermal Expansion