The General Theory of Reproducible and Quasi-Reproducible Experiments | SpringerLink
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Air Interface | SpringerLink
Thermal Analysis of Polymers | SpringerLink
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Geometric Quantities | SpringerLink
How to find the solution to the differential equation [math]\cos(x) \dfrac {\mathrm dy} {\mathrm dx} +\sin(x) y = 2\cos^3(x) \sin(x) - 1, y (\frac {\pi} {4}) = 3 \sqrt 2. - Quora
Computer-assisted proofs in PDE: a survey | SpringerLink
Particles and Photons as Drivers for Particle Release from the Surfaces of the Moon and Mercury | SpringerLink
A Description of Numerical Methods - Ximera
The Comprehensive LaTeX Symbol List
Radiation astronomy/Mathematics - Wikiversity
Anisotropic Plasma | SpringerLink
Air Interface | SpringerLink
Hartree-Fock Approximation | SpringerLink
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Melting of nano‐enhanced phase change material in a cavity heated sinusoidal from below: Numerical study using lattice Boltzmann method - Laouer - - Heat Transfer - Wiley Online Library
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Transport | SpringerLink
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Mass in General Relativity | SpringerLink
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Melting of nano‐enhanced phase change material in a cavity heated sinusoidal from below: Numerical study using lattice Boltzmann method - Laouer - - Heat Transfer - Wiley Online Library
Compact High Order Accurate Schemes for the Three Dimensional Wave Equation | SpringerLink
Data-driven analytical mechanics of aging viscoelastic shotcrete tunnel shells | SpringerLink
Path integral Brownian chain molecular dynamics: A simple approximation of quantum vibrational dynamics - Shiga - Journal of Computational Chemistry - Wiley Online Library
How to find the solution to the differential equation [math]\cos(x) \dfrac {\mathrm dy} {\mathrm dx} +\sin(x) y = 2\cos^3(x) \sin(x) - 1, y (\frac {\pi} {4}) = 3 \sqrt 2. - Quora
