## Physical Properties of Crystals: Their Representation by Tensors and Matrices |

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Page 45

2.46 from Q to P. Clearly, S'n and S'22 are always intermediate in

S1 and St and reach their extreme

axes Ox\ coincide with the principal axes. We see too that (5^+5^) has the same ...

2.46 from Q to P. Clearly, S'n and S'22 are always intermediate in

**value**betweenS1 and St and reach their extreme

**values**when R is at P and Q, that is, when theaxes Ox\ coincide with the principal axes. We see too that (5^+5^) has the same ...

Page 187

Some numerical

schematic array summarizes the orders of magnitude of the coefficients at room

temperature for non- metallic and non-ferroelectric crystals, when they are not ...

Some numerical

**values**have been quoted in previous chapters. The followingschematic array summarizes the orders of magnitude of the coefficients at room

temperature for non- metallic and non-ferroelectric crystals, when they are not ...

Page 254

It IB evident from formulae (33) and (34) and Table 16 that, by compressing a

cubic crystal along a cube axis and measuring the resulting birefringence at right

angles to the stress axis, the

found ...

It IB evident from formulae (33) and (34) and Table 16 that, by compressing a

cubic crystal along a cube axis and measuring the resulting birefringence at right

angles to the stress axis, the

**values**of (7rn— 7712) and (TTU— 7r13) can befound ...

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### Contents

THE GROUNDWORK OF CRYSTAL PHYSICS | 3 |

EQUILIBRIUM PROPERTIES | 51 |

ELECTRIC POLARIZATION | 68 |

15 other sections not shown

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### Common terms and phrases

angle anisotropic applied axial vector centre of symmetry Chapter coefficients conductivity constant crystal classes crystal properties crystal symmetry cube cubic crystals defined denoted diad axis dielectric direction cosines displacement dummy suffix electric field ellipsoid equal equation example expression follows force given heat flow Hence hexagonal homogeneous indicatrix isothermal isotropic left-handed length longitudinal magnetic magnitude matrix notation measured moduli monoclinic number of independent Onsager's Principle optical activity orientation parallel Peltier permittivity perpendicular photoelastic effect piezoelectric effect plane plate polarization positive principal axes produced pyroelectric pyroelectric effect quantities radius vector referred refractive refractive index relation representation quadric represented right-handed rotation scalar second-rank tensor set of axes shear stress suffix notation surface susceptibility symmetry elements Table temperature gradient tensile stress thermal expansion thermodynamics thermoelectric effects Thomson heat tion transformation law trigonal uniaxial unit volume values written Young's Modulus zero