Results 241 to 250 of about 11,339 (266)
Developments and challenges in hit progression within fragment-based drug discovery. [PDF]
Nat CommunGrosjean H, Biggin PC.
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Deep docking, part 2: an amplified DDU platform for ultra-large virtual screening. [PDF]
Chem SciPandey M +7 more
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Vision Transformer attention alignment with human visual perception in aesthetic object evaluation. [PDF]
PLoS OneCarrasco M +3 more
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Hope for 17 patients with chronic cluster headache: efficacy evaluation of upper cervical spinal nerve root release surgery (2020-2023). [PDF]
Front NeurolMao-Jiang Y +8 more
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1988
Abstract : This research note presents the mathematical analysis used to predict the effect of varied levels of projectile dispersion on a) dispersion-zone size, and b) hit probabilities for targets engaged with the 25-MM gun of the Bradley Fighting Vehicle.
exaly +2 more sources
Abstract : This research note presents the mathematical analysis used to predict the effect of varied levels of projectile dispersion on a) dispersion-zone size, and b) hit probabilities for targets engaged with the 25-MM gun of the Bradley Fighting Vehicle.
exaly +2 more sources
Turbulent Transport of Suspended Particles and Dispersing Benthic Organisms: How Long to Hit Bottom?
Journal of Theoretical Biology, 1997Abstract Turbulence plays an important role in the transport of particles in many aquatic systems. In addition to various types of inorganic sediment (silt, sand, etc.), these particles typically include bacteria, algae, invertebrates, and fine organic debris.
James N. McNair +2 more
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Journal of Theoretical Biology, 2001
The local exchange model developed by McNair et al. (1997) provides a stochastic diffusion approximation to the random-like motion of fine particles suspended in turbulent water. Based on this model, McNair (2000) derived equations governing the probability distribution and moments of the hitting time, which is the time until a particle hits the bottom
J N, McNair, J D, Newbold
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The local exchange model developed by McNair et al. (1997) provides a stochastic diffusion approximation to the random-like motion of fine particles suspended in turbulent water. Based on this model, McNair (2000) derived equations governing the probability distribution and moments of the hitting time, which is the time until a particle hits the bottom
J N, McNair, J D, Newbold
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Journal of Theoretical Biology, 2000
Fine particles suspended in turbulent water exhibit highly irregular trajectories as they are buffeted by fluid eddies. The Local Exchange Model provides a stochastic diffusion approximation to the randomlike motion of such particles (e.g. dispersing benthic organisms in a stream). McNair et al. (1997, J. theor.
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Fine particles suspended in turbulent water exhibit highly irregular trajectories as they are buffeted by fluid eddies. The Local Exchange Model provides a stochastic diffusion approximation to the randomlike motion of such particles (e.g. dispersing benthic organisms in a stream). McNair et al. (1997, J. theor.
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Measurement of vertical target dispersion with target-hitting sequence for barrage weapons
Optics and Precision Engineering, 2016武江鹏 WU Jiang-peng +4 more
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