Category:Videos of stress (mechanics)
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Media in category "Videos of stress (mechanics)"
The following 144 files are in this category, out of 144 total.
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A-Possible-Role-for-Integrin-Signaling-in-Diffuse-Axonal-Injury-pone.0022899.s011.ogv 3.4 s, 640 × 480; 605 KB
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Bacterial-growth-and-form-under-mechanical-compression-srep11367-s3.ogv 7.0 s, 400 × 340; 230 KB
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Bacterial-growth-and-form-under-mechanical-compression-srep11367-s5.ogv 1.2 s, 570 × 300; 484 KB
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Cancer-Cell-Invasion-Is-Enhanced-by-Applied-Mechanical-Stimulation-pone.0017277.s001.ogv 0.9 s, 640 × 480; 31 KB
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Cancer-Cell-Invasion-Is-Enhanced-by-Applied-Mechanical-Stimulation-pone.0017277.s003.ogv 3.8 s, 320 × 240; 35 KB
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Cyclic-stretching-of-soft-substrates-induces-spreading-and-growth-ncomms7333-s2.ogv 24 s, 1,280 × 960; 9.14 MB
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Determinants-of-Leukocyte-Margination-in-Rectangular-Microchannels-pone.0007104.s003.ogv 26 s, 320 × 240; 1.22 MB
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Dynamic-Prestress-in-a-Globular-Protein-pcbi.1002509.s010.ogv 0.0 s, 656 × 608; 9.08 MB
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Elastic-Free-Energy-Drives-the-Shape-of-Prevascular-Solid-Tumors-pone.0103245.s007.ogv 3.8 s, 2,310 × 1,818; 1.09 MB
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Elastic-Free-Energy-Drives-the-Shape-of-Prevascular-Solid-Tumors-pone.0103245.s008.ogv 3.8 s, 2,460 × 1,926; 1.66 MB
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Elastic-Free-Energy-Drives-the-Shape-of-Prevascular-Solid-Tumors-pone.0103245.s009.ogv 7.2 s, 1,026 × 1,194; 410 KB
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Elastic-Free-Energy-Drives-the-Shape-of-Prevascular-Solid-Tumors-pone.0103245.s010.ogv 7.2 s, 1,036 × 1,090; 388 KB
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Flow-driven-assembly-of-VWF-fibres-and-webs-in-in-vitro-microvessels-ncomms8858-s2.ogv 12 s, 525 × 488; 312 KB
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Flow-driven-assembly-of-VWF-fibres-and-webs-in-in-vitro-microvessels-ncomms8858-s3.ogv 15 s, 505 × 488; 72 KB
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Flow-driven-assembly-of-VWF-fibres-and-webs-in-in-vitro-microvessels-ncomms8858-s4.ogv 12 s, 517 × 488; 349 KB
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Flow-driven-assembly-of-VWF-fibres-and-webs-in-in-vitro-microvessels-ncomms8858-s5.ogv 12 s, 514 × 480; 80 KB
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Hypertrophic-scar-contracture-is-mediated-by-the-TRPC3-mechanical-force-transducer-via-NFkB-srep11620-s2.ogv 2 min 2 s, 320 × 256; 361 KB
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Hypertrophic-scar-contracture-is-mediated-by-the-TRPC3-mechanical-force-transducer-via-NFkB-srep11620-s3.ogv 2 min 0 s, 320 × 256; 553 KB
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Hypertrophic-scar-contracture-is-mediated-by-the-TRPC3-mechanical-force-transducer-via-NFkB-srep11620-s4.ogv 2 min 1 s, 284 × 236; 585 KB
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Hypertrophic-scar-contracture-is-mediated-by-the-TRPC3-mechanical-force-transducer-via-NFkB-srep11620-s5.ogv 2 min 4 s, 320 × 256; 101 KB
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Interplay-of-active-processes-modulates-tension-and-drives-phase-transition-in-self-renewing-motor-ncomms10323-s2.ogv 5.5 s, 1,000 × 1,000; 8.01 MB
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Interplay-of-active-processes-modulates-tension-and-drives-phase-transition-in-self-renewing-motor-ncomms10323-s3.ogv 10 s, 1,000 × 1,000; 23.57 MB
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Interplay-of-active-processes-modulates-tension-and-drives-phase-transition-in-self-renewing-motor-ncomms10323-s4.ogv 23 s, 1,000 × 1,000; 48.23 MB
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Interplay-of-active-processes-modulates-tension-and-drives-phase-transition-in-self-renewing-motor-ncomms10323-s6.ogv 1 min 15 s, 512 × 512; 15.49 MB
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Long-range-ordered-vorticity-patterns-in-living-tissue-induced-by-cell-division-ncomms6720-s2.ogv 4.8 s, 1,920 × 576; 1.79 MB
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Mechanical-Force-Alters-Morphogenetic-Movements-and-Segmental-Gene-Expression-Patterns-during-pone.0033089.s010.ogv 14 s, 1,024 × 1,024; 5.72 MB
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Monitoring-dynamics-of-human-adenovirus-disassembly-induced-by-mechanical-fatigue-srep01434-s2.ogv 53 s, 720 × 540; 5.44 MB
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Monitoring-dynamics-of-human-adenovirus-disassembly-induced-by-mechanical-fatigue-srep01434-s3.ogv 39 s, 720 × 540; 4.13 MB
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Monitoring-dynamics-of-human-adenovirus-disassembly-induced-by-mechanical-fatigue-srep01434-s4.ogv 46 s, 720 × 540; 4.82 MB
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Monitoring-dynamics-of-human-adenovirus-disassembly-induced-by-mechanical-fatigue-srep01434-s5.ogv 41 s, 720 × 540; 3.93 MB
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Monitoring-dynamics-of-human-adenovirus-disassembly-induced-by-mechanical-fatigue-srep01434-s6.ogv 34 s, 720 × 540; 3.25 MB
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Multi-body-simulation-of-a-canine-hind-limb-model-development-experimental-validation-and-1475-925X-8-36-S1.ogv 9.5 s, 1,113 × 574; 2.77 MB
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Persistent-Symmetry-Frustration-in-Pollen-Tubes-pone.0048087.s001.ogv 6.6 s, 560 × 420; 793 KB
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Persistent-Symmetry-Frustration-in-Pollen-Tubes-pone.0048087.s002.ogv 7.3 s, 560 × 420; 826 KB
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Physical-principles-of-membrane-remodelling-during-cell-mechanoadaptation-ncomms8292-s2.ogv 3.0 s, 482 × 692; 258 KB
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Physical-principles-of-membrane-remodelling-during-cell-mechanoadaptation-ncomms8292-s3.ogv 5.3 s, 522 × 1,188; 500 KB
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Physical-principles-of-membrane-remodelling-during-cell-mechanoadaptation-ncomms8292-s4.ogv 10 s, 396 × 792; 453 KB
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Physical-principles-of-membrane-remodelling-during-cell-mechanoadaptation-ncomms8292-s5.ogv 10 s, 330 × 660; 507 KB
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Physical-principles-of-membrane-remodelling-during-cell-mechanoadaptation-ncomms8292-s6.ogv 10 s, 495 × 990; 837 KB
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Physical-principles-of-membrane-remodelling-during-cell-mechanoadaptation-ncomms8292-s7.ogv 16 s, 330 × 660; 552 KB
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Physical-principles-of-membrane-remodelling-during-cell-mechanoadaptation-ncomms8292-s8.ogv 16 s, 330 × 660; 550 KB
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Physical-principles-of-membrane-remodelling-during-cell-mechanoadaptation-ncomms8292-s9.ogv 32 s, 319 × 638; 722 KB
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Rapid-expulsion-of-microswimmers-by-a-vortical-flow-ncomms11114-s2.ogv 16 s, 800 × 800; 9.05 MB
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Rapid-expulsion-of-microswimmers-by-a-vortical-flow-ncomms11114-s3.ogv 2 min 46 s, 600 × 600; 32.06 MB
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Rapid-expulsion-of-microswimmers-by-a-vortical-flow-ncomms11114-s4.ogv 5.0 s, 800 × 800; 21.39 MB
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Rapid-expulsion-of-microswimmers-by-a-vortical-flow-ncomms11114-s5.ogv 43 s, 400 × 400; 37.58 MB
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Rapid-expulsion-of-microswimmers-by-a-vortical-flow-ncomms11114-s6.ogv 25 s, 400 × 400; 21.24 MB
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Rapid-expulsion-of-microswimmers-by-a-vortical-flow-ncomms11114-s7.ogv 17 s, 960 × 960; 17.68 MB
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Reinforcement-versus-Fluidization-in-Cytoskeletal-Mechanoresponsiveness-pone.0005486.s009.ogv 23 s, 1,018 × 678; 874 KB
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Reinforcement-versus-Fluidization-in-Cytoskeletal-Mechanoresponsiveness-pone.0005486.s010.ogv 9.0 s, 800 × 560; 372 KB
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Reinforcement-versus-Fluidization-in-Cytoskeletal-Mechanoresponsiveness-pone.0005486.s011.ogv 1.3 s, 800 × 800; 238 KB
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Reinforcement-versus-Fluidization-in-Cytoskeletal-Mechanoresponsiveness-pone.0005486.s012.ogv 2.3 s, 800 × 800; 27 KB
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Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s2.ogv 7.6 s, 960 × 720; 2.86 MB
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Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s3.ogv 7.0 s, 720 × 720; 4.9 MB
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Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s4.ogv 5.1 s, 870 × 720; 2.81 MB
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Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s5.ogv 9.6 s, 720 × 720; 4.3 MB
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Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s6.ogv 15 s, 980 × 720; 3.43 MB
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Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s7.ogv 30 s, 980 × 720; 5.63 MB
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Shoulder-posture-and-median-nerve-sliding-1471-2474-5-23-S1.ogv 26 s, 261 × 263; 1.1 MB
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