Results 241 to 250 of about 148,618 (297)
Gaussian process regression with physics-guided pseudo-sample augmentation for wear prediction under sparse measurements in milling. [PDF]
Sci RepNguyen HP, Nguyen DT, Kim JM.
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The Importance Of Physical Activities In Moderating The Impulsiveness Of Young Generation
The European Proceedings of Social and Behavioural Sciences, 2019 openaire +1 more source
Nuclei discovered new practical insights via optimized soliton-like pulse analysis in a space fractional-time beta-derivatives equations. [PDF]
Sci RepFendzi-Donfack E +10 more
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Fault Diagnosis of Rotating Machinery Using Supervised Machine Learning Algorithms with Integrated Data-Driven and Physics-Informed Feature Sets. [PDF]
Sensors (Basel)Ignjatovska AA +6 more
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Is the conduction of the nerve impulse a chemical or a physical process? 1907.
The Journal of biological chemistry, 2002 openaire +1 more source
From foreshock to mainshock: transient sliding velocity sets nucleation time
Fryer B +3 more
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Discharge physics of high power impulse magnetron sputtering [PDF]
Surface and Coatings Technology, 2011 Abstract High power impulse magnetron sputtering (HIPIMS) is pulsed sputtering where the peak power exceeds the time-averaged power by typically two orders of magnitude. The peak power density, averaged over the target area, can reach or exceed 10 7 W/m 2 , leading to plasma conditions that make ionization of the sputtered atoms very likely. A brief
André Anders
exaly +3 more sources
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Soviet Physics Uspekhi, 1977
After briefly presenting the history of the problem, we describe the fundamental properties of the nerve cell, its electrical characteristics, and the phenomenological pattern of the excitability phenomenon. We discuss in detail ion transport through biological membranes and models for them, in particular through bilayer lipid membranes. We present the
V S Markin +2 more
openaire +2 more sources
After briefly presenting the history of the problem, we describe the fundamental properties of the nerve cell, its electrical characteristics, and the phenomenological pattern of the excitability phenomenon. We discuss in detail ion transport through biological membranes and models for them, in particular through bilayer lipid membranes. We present the
V S Markin +2 more
openaire +2 more sources