Physics Commons^™

Thermal And Electrical Properties Of Nanocrystalline Superionic Naxcu1.75s (X=0.1, 0.15, 0.2, 25) Compounds, M.M. Kubenova, K.A. Kuterbekov, M.Kh. Balapanov, R.Kh. Ishembetov, B.M. Akhmetgaliev, A.M. Kabyshev, K.Zh. Bekmyrza, M.Kh. Zeleev, R.Sh. Palymbetov, B.U. Baikhozhaeva

Eurasian Journal of Physics and Functional Materials

The paper presents the results of the studies of thermal properties of nanocrystalline superionic Na_xCu_1.75S (x = 0.1, 0.15, 0.2, 25) compositions, and preliminary results of Na_0.1Cu_1.75S using as energy stored cathode material in Na-ion half-cell with NaPF₆ electrolyte and Na anode. The compositions contain a few copper sulfide phases: monoclinic chalcocite Cu₂S, orthorhombic anilite Cu_1.75S, triclinic roxbyite Cu_1.74÷1.82S, also the compositions can contain monoclinic Na₂Cu₄S₃, orthorhombic Na₂S, cubic Cu₂O as inclusion phases. The sizes …

Hovering Potato ~ Activity Plan, Admin Stem For Success

STEM for Success Showcase

This experiment is a great example of chemistry. This experiment relies heavily on density and diffusion.

• Water is less dense than half of a potato. Therefore, the potato sinks.

• Sugar water is more dense than half of a potato. Therefore, the potato floats.

By slowly adding water to sugar water, two layers are formed which allows the potato to hover in between. Slowly adding the water allows for diffusion to occur at a minimum.

Simulation Of Coherent Remission In Planar Disordered Medium, Pablo Jara-Palacios, Ho Chun Lin, Chia Wei Hsu, Hui Cao, Alexey Yamilov

Physics Faculty Research & Creative Works

Waves remitted from a scattering medium carry information that can be used for non-invasive imaging and sensing. Such techniques are usually limited by a low photon budget. Recent progress in optical wavefront shaping has enabled coherent control with an order-of-magnitude enhancement of remission [1]. This experimental study necessitated increasingly demanding numerical simulations. Extending this line of research requires more sophisticated computational techniques capable of simulating multiple instances of even larger systems. Here, we demonstrate that remission geometry can be efficiently simulated using a novel open-source software package [2] Maxwell's Equations Solver with Thousands of Inputs (MESTI). To verify its numerical …