We have applied geometric methods to study the inverse problems related to the wave, heat, and conductivity equations, as well as Maxwell's and Dirac systems. Often inverse problems for different ...

Researchers have long shown that the cubic phase of germanium telluride (GeTe) exhibits an unexpected rise in lattice thermal conductivity as its temperature increases. But knowing that a property ...

Electrical conductivity measures the ability of water to conduct an electrical current. The higher the concentration of dissolved charged chemicals (also known as salts) in the water, the greater the ...

An equation is a mathematical expression that contains an equals symbol. Equations often contain algebra. Algebra is used in Maths when we do not know the exact number in a calculation - this ...

Thermal conductivity is a cornerstone in the science of thermodynamics and heat transfer. Thermal conductivity (λ) is the ability of a material to transfer heat energy across a given distance. This ...

But with this adjustment, the equations worked ... at its core is made by mixing materials with varying amounts of conductivity. Here's one of the quirky things about quantum mechanics: just ...

With rapid advances in high-throughput computing, machining learning (ML), and artificial intelligence (AI) applications, polymer informatics is emerging as a promising tool to ensure breakthrough ...

Figure 3 is a basic list of metal conductivity. The precious metal, silver on top, like gold below copper, are pricey and often used only sparingly in applications like contacts. Though the other ...

Citation: Framework for solving parabolic partial differential equations could guide computer graphics and geometry processing (2024, August 28) retrieved 17 September 2024 from https://phys.org ...

Between its strength and conductivity, this thread could have a long list of applications from military down to civilian. Check out the introduction in the video after the break. For now ...