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Caption: FIGURE 8: Longitudinal wave velocity (Ci) (a) and transverse wave velocity (Cr) (b) of POM and POM/HAp nanocomposites with different HAp content.

The Influence of Nanohydroxyapatite on the Thermal, Mechanical, and Tribological Properties of Polyoxymethylene Nanocomposites

Domain decomposition plays a significant role in the correction of the arrival times of longitudinal and transverse waves. The arrival times of longitudinal and transverse waves identified from the purified extracted microseismic wave contribute to ensuring the reliability of focus repositioning and focus energy recalculation.

A Synthetic Solution for Identification and Extraction of the Effective Microseismic Wave Component Using Decomposition on Time, Frequency, and Wavelet Coefficient Domains

A measurement of a particle's position is a measurement of the longitudinal wave, not the transverse wave.

On the applicability of Bell's inequality

Almost all the diagrams of longitudinal waves, to cite the most simple example, given in textbooks or drawn on the board in class are depicted, generally for liquids, especially water, as transverse waves inside a tube.

Juguetes como instrumentos de ensenanza en ingenieria: el caso del Slinky[R]

In order to obtain an unambiguous solution, the field components must satisfy the appropriate boundary conditions at the surface of the cavity wall (i.e., the tangential fields must be continuous at the wall surface); the transverse wave impedance must also be continuous across the wall interface.

Lossy Spherical Cavity Resonators for Stress-Testing Arbitrary 3D Eigenmode Solvers

The longitudinal wave (P-wave) or thermal wave (T-wave) or transverse wave (SV-wave) propagating through the medium [M.sub.1] which is designated as the region [x.sub.3] > 0 is considered.

Effect of stiffness on reflection and transmission of waves at an interface between heat conducting elastic solid and micropolar fluid media

The scalar transverse function denoted by T(r, [phi]) in (1) for TM-waves in a coaxial wave guide is a solution of the transverse wave equation

First-order perturbation approach to transformer winding deformations

where [k.sub.z1,2] = [([([omega]/c).sup.2] [[epsilon].sub.f1,2] - [k.sup.2.sub.x]).sup.1/2] are the transversal wave numbers of the semiconductor and dielectric layers, respectively; the Bloch wave number [bar.k] is an effective transverse wave number that characterizes the periodicity of the structure; [[epsilon].sub.f1] = [[epsilon].sub.[parallel]] + [[epsilon].sup.2.sub.[perpendicular to]]/[[epsilon].sub.[parallel]] is the Voigt effective permittivity of the semiconductor layer.

Surface electromagnetic waves in finite semiconductor-dielectric periodic structure in an external magnetic field

6.23 5.98 [C.sub.L](mm/[micro]s) Transverse wave speed 3.100 3.264 [C.sub.s](mm/[micro]s) Longitudinal impedance, 17.44 45.50 p[C.sup.L](GPs/mm/[micro]s) Shear impedance pCs (GPa/mm/[micro]s) 8.68 24.90 Mass density, p (kg/[m.sup.3]) 2800 7612 Young's modulus, E (GPa) 71 207 Shear modulus, [micro] (GPa) 26.9 81.1 Tensile strength, [delta] yield 572 2758 (Mila) For the constant hydrostatic pressure and the pressure-drop experiments, the flyer is approximately 76 mm in diameter and 13 mm in thickness.

Uniaxial compression and combined Compression-and-Shear response of amorphous polycarbonate at high loading rates

It's internal normalized transverse wave's number in the dielectric.

Investigation of the electromagnetic fields in gyrotropic waveguides/Elektromagnetiniu lauku girotropiniuose bangolaidziuose tyrimas