## Physical Properties of Crystals |

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Page 8

In this book the range of values of all letter suffixes is 1, 2, 3 unless some other

range is specified. Returning now to equation (9), we see that it sums up the

body ...

In this book the range of values of all letter suffixes is 1, 2, 3 unless some other

range is specified. Returning now to equation (9), we see that it sums up the

**relation**between p and q in a crystal. The corresponding equation for an isotropicbody ...

Page 21

A physical property of a crystal consists of a

quantities associated with the crystal. For example, the elasticity of a crystal is a

certain

A physical property of a crystal consists of a

**relation**between certain measurablequantities associated with the crystal. For example, the elasticity of a crystal is a

certain

**relation**between a homogeneous stress and a homogeneous strain in ...Page 177

Both these are coupled effects, and just as there is a

expansion coefficients and the piezocaloric coefficients, so there is a

between the coefficients for the heat of deformation and thermal pressure.

Both these are coupled effects, and just as there is a

**relation**between the thermalexpansion coefficients and the piezocaloric coefficients, so there is a

**relation**between the coefficients for the heat of deformation and thermal pressure.

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### Contents

THE GROUND WORK OF CRYSTAL PHYSICS | 3 |

Summary | 29 |

EQUILIBRIUM PROPERTIES | 45 |

47 other sections not shown

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### Common terms and phrases

angle anisotropic applied biaxial birefringence centre of symmetry Chapter conductivity constant crystal classes crystal properties crystal symmetry cube cubic crystals defined denoted diad axis dielectric direction cosines displacement elastic compliances electric field electro-optical electro-optical effect ellipsoid equal equation example expression follows forces given gives grad heat flow Hence indicatrix isothermal isotropic magnetic magnitude matrix notation measured moduli Mohr circle monoclinic number of independent Onsager's Principle optic axis optical activity orientation parallel permittivity perpendicular photoelastic effect piezoelectric effect plane plate polarization positive principal axes produced pyroelectric effect quadric radius vector referred refractive index relation representation quadric represents right-handed rotation scalar second-rank tensor shear shown shows strain stress symmetry elements Table temperature gradient thermal expansion thermodynamics thermoelectric effects Thomson heat tion transformation law trigonal uniaxial unit volume values wave normal wave surface written zero