Category:Videos of mechanical engineering
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This category has the following 14 subcategories, out of 14 total.
Media in category "Videos of mechanical engineering"
The following 150 files are in this category, out of 150 total.
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1 DOF Pendulum with spring-damper Adams simulation.mpg 17 s, 659 × 500; 2.39 MB
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1 DOF Pendulum with spring-damper Adams simulation.ogv 10 s, 786 × 500; 1.45 MB
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A-Novel-Growing-Device-Inspired-by-Plant-Root-Soil-Penetration-Behaviors-pone.0090139.s001.ogv 13 s, 1,440 × 1,080; 568 KB
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A-Novel-Growing-Device-Inspired-by-Plant-Root-Soil-Penetration-Behaviors-pone.0090139.s002.ogv 55 s, 1,440 × 1,080; 9.41 MB
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A-Novel-Growing-Device-Inspired-by-Plant-Root-Soil-Penetration-Behaviors-pone.0090139.s003.ogv 1 min 24 s, 640 × 480; 6.61 MB
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A-Novel-Robot-System-Integrating-Biological-and-Mechanical-Intelligence-Based-on-Dissociated-Neural-pone.0165600.s001.ogv 2 min 5 s, 856 × 480; 10.76 MB
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Actuator.ogv 1 min 19 s, 320 × 240; 3.09 MB
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Another-Lesson-from-Plants-The-Forward-Osmosis-Based-Actuator-pone.0102461.s004.ogv 1 min 18 s, 1,920 × 1,080; 7.27 MB
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Balance à plateaux.webm 30 s, 1,920 × 1,080; 1.05 MB
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Cap 3.1 - Monitoramento de engrenagens sem defeito.ogv 15 s, 776 × 448; 4.63 MB
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Cap. 4.2 - Desbalanceamento massas a 90graus sinal no tempo.ogv 16 s, 440 × 432; 1.28 MB
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Cap. 4.3 - Desalinhamento paralelo sinal tempo frequencia.ogv 39 s, 912 × 360; 5.21 MB
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Cap. 4.5 - Componentes soltos sinal frequencia.ogv 15 s, 480 × 432; 2.27 MB
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Centrifugeuse.webm 27 s, 1,920 × 1,080; 1.01 MB
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Compound-Ex-Vivo-and-In-Silico-Method-for-Hemodynamic-Analysis-of-Stented-Arteries-pone.0058147.s006.ogv 30 s, 1,747 × 800; 18.43 MB
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Compound-Ex-Vivo-and-In-Silico-Method-for-Hemodynamic-Analysis-of-Stented-Arteries-pone.0058147.s007.ogv 27 s, 1,362 × 848; 18.23 MB
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Construction-of-a-WMR-for-Trajectory-Tracking-Control-Experimental-Results-723645.f1.ogv 41 s, 320 × 240; 8.5 MB
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Construction-of-a-WMR-for-Trajectory-Tracking-Control-Experimental-Results-723645.f2.ogv 46 s, 320 × 240; 8.49 MB
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Digital-Microfluidic-Processing-of-Mammalian-Embryos-for-Vitrification-pone.0108128.s001.ogv 1 min 7 s, 960 × 540; 2.99 MB
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Evidence-for-a-Time-Invariant-Phase-Variable-in-Human-Ankle-Control-pone.0089163.s001.ogv 41 s, 856 × 480; 6.04 MB
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Evolution-of-Collective-Behaviors-for-a-Real-Swarm-of-Aquatic-Surface-Robots-pone.0151834.s002.ogv 45 s, 1,920 × 1,080; 9.2 MB
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Feeling-What-an-Insect-Feels-pone.0108895.s003.ogv 27 s, 1,280 × 720; 3.41 MB
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Impact-of-Robotic-Assistance-on-Precision-of-Vitreoretinal-Surgical-Procedures-pone.0054116.s001.ogv 12 s, 1,920 × 1,080; 3.87 MB
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Impact-of-Robotic-Assistance-on-Precision-of-Vitreoretinal-Surgical-Procedures-pone.0054116.s002.ogv 32 s, 1,920 × 1,080; 9.23 MB
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Impact-of-Robotic-Assistance-on-Precision-of-Vitreoretinal-Surgical-Procedures-pone.0054116.s003.ogv 13 s, 960 × 540; 3.08 MB
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Independent-Mobility-Achieved-through-a-Wireless-Brain-Machine-Interface-pone.0165773.s003.ogv 1 min 12 s, 960 × 540; 29.95 MB
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Independent-Mobility-Achieved-through-a-Wireless-Brain-Machine-Interface-pone.0165773.s004.ogv 1 min 13 s, 960 × 540; 52.49 MB
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Independent-Mobility-Achieved-through-a-Wireless-Brain-Machine-Interface-pone.0165773.s005.ogv 1 min 11 s, 960 × 540; 48.37 MB
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Independent-Mobility-Achieved-through-a-Wireless-Brain-Machine-Interface-pone.0165773.s006.ogv 1 min 10 s, 960 × 540; 26.9 MB
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Independent-Mobility-Achieved-through-a-Wireless-Brain-Machine-Interface-pone.0165773.s007.ogv 45 s, 960 × 540; 24.65 MB
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Information-Driven-Self-Organization-of-Complex-Robotic-Behaviors-pone.0063400.s002.ogv 1 min 18 s, 800 × 600; 31.15 MB
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Information-Driven-Self-Organization-of-Complex-Robotic-Behaviors-pone.0063400.s003.ogv 3 min 47 s, 800 × 600; 28.78 MB
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Information-Driven-Self-Organization-of-Complex-Robotic-Behaviors-pone.0063400.s004.ogv 1 min 30 s, 800 × 600; 14.06 MB
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Information-Driven-Self-Organization-of-Complex-Robotic-Behaviors-pone.0063400.s005.ogv 1 min 33 s, 800 × 600; 16.14 MB
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Information-Driven-Self-Organization-of-Complex-Robotic-Behaviors-pone.0063400.s006.ogv 2 min 38 s, 800 × 600; 11.48 MB
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Intelligence-Augmented-Rat-Cyborgs-in-Maze-Solving-pone.0147754.s004.ogv 3 min 8 s, 640 × 480; 8.36 MB
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Johannes Kalliauer et al 2021 A new approach to the mechanics of DNA.ogg 4 min 59 s, 1,504 × 720; 59.77 MB
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Leonardo-ball-bearing-1.ogv 16 s, 640 × 480; 3.1 MB
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Leonardo-ball-bearing-2.ogv 7.2 s, 640 × 480; 1.34 MB
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Leonardo-Flywheel.ogv 21 s, 640 × 480; 2.73 MB
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Mouton pendule de Charpy.webm 23 s, 1,920 × 1,080; 901 KB
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Multimodal-Movement-Prediction---Towards-an-Individual-Assistance-of-Patients-pone.0085060.s002.ogv 3 min 11 s, 640 × 480; 5.21 MB
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Projecteur cinéma en LEGO.webm 28 s, 1,920 × 1,080; 19.31 MB
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Projecteur LEGO, fonctionnement.webm 9.0 s, 640 × 480; 4.5 MB
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Reflex-Control-of-Robotic-Gait-Using-Human-Walking-Data-pone.0109959.s004.ogv 3 min 24 s, 640 × 360; 25.08 MB
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Reflex-Control-of-Robotic-Gait-Using-Human-Walking-Data-pone.0109959.s005.ogv 43 s, 640 × 360; 12.2 MB
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Reflex-Control-of-Robotic-Gait-Using-Human-Walking-Data-pone.0109959.s006.ogv 14 s, 640 × 360; 1.35 MB
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Reflex-Control-of-Robotic-Gait-Using-Human-Walking-Data-pone.0109959.s007.ogv 41 s, 640 × 360; 6.95 MB
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Reflex-Control-of-Robotic-Gait-Using-Human-Walking-Data-pone.0109959.s008.ogv 21 s, 640 × 360; 2.04 MB
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Reflex-Control-of-Robotic-Gait-Using-Human-Walking-Data-pone.0109959.s009.ogv 18 s, 640 × 360; 1.88 MB
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Reflex-Control-of-Robotic-Gait-Using-Human-Walking-Data-pone.0109959.s010.ogv 17 s, 640 × 360; 2.3 MB
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Reflex-Control-of-Robotic-Gait-Using-Human-Walking-Data-pone.0109959.s011.ogv 52 s, 640 × 360; 9.59 MB
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Reflex-Control-of-Robotic-Gait-Using-Human-Walking-Data-pone.0109959.s012.ogv 25 s, 640 × 360; 2.33 MB
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Reflex-Control-of-Robotic-Gait-Using-Human-Walking-Data-pone.0109959.s013.ogv 47 s, 640 × 360; 8.13 MB
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Reflex-Control-of-Robotic-Gait-Using-Human-Walking-Data-pone.0109959.s014.ogv 47 s, 640 × 360; 8.44 MB
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Reflex-Control-of-Robotic-Gait-Using-Human-Walking-Data-pone.0109959.s015.ogv 25 s, 640 × 360; 2.87 MB
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Reflex-Control-of-Robotic-Gait-Using-Human-Walking-Data-pone.0109959.s016.ogv 42 s, 640 × 360; 7.36 MB
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Reflex-Control-of-Robotic-Gait-Using-Human-Walking-Data-pone.0109959.s017.ogv 33 s, 640 × 360; 5.61 MB
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Rhythm-Patterns-Interaction---Synchronization-Behavior-for-Human-Robot-Joint-Action-pone.0095195.s001.ogv 3 min 3 s, 1,050 × 576; 27.32 MB
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Robots-Show-Us-How-to-Teach-Them-Feedback-from-Robots-Shapes-Tutoring-Behavior-during-Action-pone.0091349.s005.ogv 4 min 49 s, 640 × 360; 41.39 MB
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Rogue-Waves-From-Nonlinear-Schrdinger-Breather-Solutions-to-Sea-Keeping-Test-pone.0054629.s001.ogv 52 s, 480 × 272; 6.28 MB
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Skupaj ogv q10.ogv 7.9 s, 500 × 500; 1.55 MB
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Skupaj ogv q10ifps2fr6.ogv 1 min 35 s, 500 × 500; 1.78 MB
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Soft-Modular-Robotic-Cubes-Toward-Replicating-Morphogenetic-Movements-of-the-Embryo-pone.0169179.s014.ogv 2 min 41 s, 1,920 × 1,080; 81.25 MB
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Spontaneous-Prediction-Error-Generation-in-Schizophrenia-pone.0037843.s001.ogv 1 min 5 s, 851 × 480; 4.8 MB
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Spontaneous-Prediction-Error-Generation-in-Schizophrenia-pone.0037843.s002.ogv 1 min 11 s, 851 × 480; 5.37 MB
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Structural-Transition-from-Helices-to-Hemihelices-pone.0093183.s007.ogv 18 s, 1,280 × 960; 2.19 MB
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Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s008.ogv 5.2 s, 672 × 512; 3.18 MB
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Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s009.ogv 2.0 s, 1,147 × 1,024; 2.8 MB
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Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s010.ogv 2.9 s, 672 × 512; 2.73 MB
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Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s011.ogv 8.9 s, 672 × 512; 5.33 MB
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Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s012.ogv 7.3 s, 672 × 512; 6.19 MB
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Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s013.ogv 14 s, 672 × 512; 12.7 MB
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Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s014.ogv 4.8 s, 672 × 512; 3.6 MB
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Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s015.ogv 11 s, 672 × 512; 8.27 MB
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Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s016.ogv 2.9 s, 1,160 × 880; 6.98 MB
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Tension-Free-Space-and-Cell-Damage-in-a-Microfluidic-Wound-Healing-Assay-pone.0024283.s017.ogv 9.8 s, 672 × 512; 7.86 MB
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The-Mechanics-of-Metastasis-Insights-from-a-Computational-Model-pone.0044281.s001.ogv 17 s, 668 × 334; 1.52 MB
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To-Cooperate-or-Not-to-Cooperate-Why-Behavioural-Mechanisms-Matter-pcbi.1004886.s004.ogv 32 s, 1,600 × 800; 6.02 MB
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Towards-a-Naturalistic-Brain-Machine-Interface-Hybrid-Torque-and-Position-Control-Allows-pone.0052286.s003.ogv 1 min 0 s, 560 × 420; 2.78 MB
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Towards-a-Naturalistic-Brain-Machine-Interface-Hybrid-Torque-and-Position-Control-Allows-pone.0052286.s004.ogv 1 min 8 s, 560 × 420; 3.54 MB
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VCA bolt.webm 2 min 59 s, 960 × 720; 33.46 MB
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Vibrot-a-Simple-Device-for-the-Conversion-of-Vibration-into-Rotation-Mediated-by-Friction-pone.0067838.s001.ogv 1 min 10 s, 375 × 288; 8.08 MB
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What-Are-You-or-Who-Are-You-The-Emergence-of-Social-Interaction-between-Dog-and-an-Unidentified-pone.0072727.s001.ogv 2 min 49 s, 600 × 480; 7.06 MB
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Wikipedianer treffen Leonardo da Vinci 2016.webm 1 min 51 s, 1,920 × 1,080; 42.68 MB