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

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Page 174

Putting dT — 0 in equation (9) and comparing with equation (3) shows that (dey/

do-w)r are the

henceforth superscripts will always indicate the quantity that is to be kept

constant.

Putting dT — 0 in equation (9) and comparing with equation (3) shows that (dey/

do-w)r are the

**isothermal**elastic compliances, which may be written sfjki\henceforth superscripts will always indicate the quantity that is to be kept

constant.

Page 186

10.1 6. (i)

h(5T '/ <C") (E constant). (49) The term on the right may be interpreted as a

thermoelastic contribution to the compliance. (ii) Electrically clamped and free

elastic ...

10.1 6. (i)

**Isothermal**and adiabatic elastic compliances (at constant field). = -«0«h(5T '/ <C") (E constant). (49) The term on the right may be interpreted as a

thermoelastic contribution to the compliance. (ii) Electrically clamped and free

elastic ...

Page 187

(57) (iii)

d%-djjk = -pl{TICa*)«%. (58) 4.3. The magnitude of the effects. The magnitude of

all the possible interactions between the crystal properties we are considering is

...

(57) (iii)

**Isothermal**and adiabatic direct and converse piezoelectric coeffi- cients-d%-djjk = -pl{TICa*)«%. (58) 4.3. The magnitude of the effects. The magnitude of

all the possible interactions between the crystal properties we are considering is

...

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### Contents

THE GROUNDWORK OF CRYSTAL PHYSICS | 3 |

EQUILIBRIUM PROPERTIES | 51 |

ELECTRIC POLARIZATION | 68 |

69 other sections not shown

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### Common terms and phrases

angle anisotropic applied biaxial birefringence centre of symmetry Chapter coefficients conductivity crystal classes crystal properties crystal symmetry cube cubic crystals defined denoted diad axis dijk direction cosines electric field electro-optical effect ellipsoid equal equation example expression follows force given gives heat flow Hence hexagonal indicatrix isothermal isotropic lattice left-handed magnetic magnitude matrix notation measured moduli monoclinic number of independent Onsager's Principle optic axis optical activity orientation permittivity perpendicular photoelastic effect piezoelectric effect plane plate point group positive principal axes produced pyroelectric effect quadric quantities radius vector referred refractive index relation representation quadric represents right-handed rotation scalar second-rank tensor set of axes shear shown shows strain stress suffix notation symbol 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