Physical Properties of Crystals |
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Page 11
... written in this notation the free suffixes must be the same † The arrangement of the suffixes in equation ( 9 ) follows the accepted rule : the suffix of the q term is the same as the second suffix of Tij , so that when is written after ...
... written in this notation the free suffixes must be the same † The arrangement of the suffixes in equation ( 9 ) follows the accepted rule : the suffix of the q term is the same as the second suffix of Tij , so that when is written after ...
Page 115
... written the converse effect is written P1 = díjkjk › = Ejk dijk E. ( 3 ) ( 19 ; = The proof of this equality of the coefficients is based on thermo- dynamical reasoning and is given in Chapter X. Since € jk Eki it follows that dijk is ...
... written the converse effect is written P1 = díjkjk › = Ejk dijk E. ( 3 ) ( 19 ; = The proof of this equality of the coefficients is based on thermo- dynamical reasoning and is given in Chapter X. Since € jk Eki it follows that dijk is ...
Page 154
... written B = μH . ΔΡ AP ; = P1AT ΔΡ = ΡΔΤ , ( 13 ) [ Ch . IV , ( 21 ) ] ( 14 ) where AP and p are single - column matrices . Notice here that the multiplication of a matrix by a single number ( AT ) multiplies all its elements by the ...
... written B = μH . ΔΡ AP ; = P1AT ΔΡ = ΡΔΤ , ( 13 ) [ Ch . IV , ( 21 ) ] ( 14 ) where AP and p are single - column matrices . Notice here that the multiplication of a matrix by a single number ( AT ) multiplies all its elements by the ...
Contents
THE GROUNDWORK OF CRYSTAL PHYSICS | 11 |
EQUILIBRIUM PROPERTIES | 45 |
PARAMAGNETIC AND DIAMAGNETIC SUSCEPTIBILITY | 53 |
20 other sections not shown
Common terms and phrases
angle anisotropic applied biaxial birefringence centre of symmetry Chapter coefficients components conductivity constant crystal classes crystal properties crystal symmetry cube cubic crystals D₁ defined deformation denoted diad axis dielectric dijk displacement electric field ellipsoid equal equation example expression follows forces given grad H₁ heat flow Hence hexagonal indicatrix isothermal isotropic k₁ magnetic magnitude matrix notation measured moduli monoclinic number of independent Onsager's Principle optic axis optical activity orientation orthorhombic Ox₁ P₁ parallel Peltier permittivity perpendicular photoelastic photoelastic effect piezoelectric effect plane plate polarization positive principal axes pyroelectric effect quadric radius vector referred refractive index relation representation quadric represents right-handed rotation S₁ scalar second-rank tensor shear shown strain stress suffixes symmetry elements Table temperature gradient thermal expansion thermodynamics thermoelectric effects Thomson heat tion transformation law triclinic trigonal uniaxial values wave normal wave surface x₁ Young's Modulus zero ат