| 11. | The larger the shear modulus, the greater the ability for a material to resist sharing forces.
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| 12. | The speed of shear waves is determined only by the solid material's shear modulus and density.
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| 13. | Where c _ s is speed of sound, \ rho is density and G is shear modulus.
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| 14. | If a material contains highly directional bonds, the shear modulus will increase and give a low Poisson ratio.
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| 15. | Several models exist that attempt to predict the shear modulus of metals ( and possibly that of alloys ).
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| 16. | Correlations between the melting temperature, vacancy formation energy, and the shear modulus have been observed in many metals.
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| 17. | In particular, Nano-scale properties such as elastic modulus, shear modulus and Poisson ratio can be measured.
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| 18. | The speed of a compression sound wave in solids is determined by the medium's compressibility, shear modulus and density.
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| 19. | Solid lipid bilayers also have a shear modulus, but like any liquid, the shear modulus is zero for fluid bilayers.
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| 20. | Solid lipid bilayers also have a shear modulus, but like any liquid, the shear modulus is zero for fluid bilayers.
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