Wave Motion in Elastic Solids
GPTKB entity
Statements (51)
Predicate | Object |
---|---|
gptkbp:instanceOf |
scientific theory
|
gptkbp:application |
gptkb:non-destructive_testing
acoustics ultrasonics earthquake analysis |
gptkbp:attenuation |
due to internal friction
|
gptkbp:bodyWaveType |
gptkb:P-waves
gptkb:S-waves |
gptkbp:canBe |
non-dispersive
dispersive |
gptkbp:damping |
material dependent
|
gptkbp:describes |
propagation of waves in elastic materials
|
gptkbp:energyTransportedBy |
mechanical waves
|
gptkbp:field |
mechanics
physics solid mechanics |
gptkbp:form |
partial differential equations
|
gptkbp:governedBy |
Navier's equations
elastic wave equation |
https://www.w3.org/2000/01/rdf-schema#label |
Wave Motion in Elastic Solids
|
gptkbp:importantFor |
geophysics
structural engineering material characterization vibration analysis wave propagation studies |
gptkbp:includes |
longitudinal waves
transverse waves |
gptkbp:mathematicalSolution |
gptkb:Laplace_transforms
Fourier analysis |
gptkbp:relatedTo |
gptkb:center
gptkb:Young's_modulus gptkb:Poisson's_ratio stress elasticity density shear modulus |
gptkbp:speedDependsOn |
material properties
density elastic moduli |
gptkbp:studiedBy |
gptkb:Augustin-Louis_Cauchy
gptkb:Simeon_Denis_Poisson John William Strutt (Lord Rayleigh) |
gptkbp:studiedIn |
engineering
materials science seismology |
gptkbp:surfaceWaveType |
gptkb:Rayleigh_waves
gptkb:Love_waves |
gptkbp:waterSource |
surface waves
body waves |
gptkbp:bfsParent |
gptkb:Karl_Graff
|
gptkbp:bfsLayer |
7
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