Category:Biological fluid mechanics
Pages in category "Category:Biological fluid mechanics"
- Category:Blood flow velocity
- File:A-Forced-Damped-Oscillation-Framework-for-Undulatory-Swimming-Provides-New-Insights-into-How-pcbi.1003097.s001.ogv
- File:A-Forced-Damped-Oscillation-Framework-for-Undulatory-Swimming-Provides-New-Insights-into-How-pcbi.1003097.s002.ogv
- File:Arachnids-Secrete-a-Fluid-over-Their-Adhesive-Pads-pone.0020485.s001.ogv
- File:Arachnids-Secrete-a-Fluid-over-Their-Adhesive-Pads-pone.0020485.s002.ogv
- File:Arachnids-Secrete-a-Fluid-over-Their-Adhesive-Pads-pone.0020485.s004.ogv
- File:Arachnids-Secrete-a-Fluid-over-Their-Adhesive-Pads-pone.0020485.s005.ogv
- File:Biomechanics-of-the-Chick-Embryonic-Heart-Outflow-Tract-at-HH18-Using-4D-Optical-Coherence-pone.0040869.s004.ogv
- File:Biomechanics-of-the-Chick-Embryonic-Heart-Outflow-Tract-at-HH18-Using-4D-Optical-Coherence-pone.0040869.s005.ogv
- File:Biomechanics-of-the-Chick-Embryonic-Heart-Outflow-Tract-at-HH18-Using-4D-Optical-Coherence-pone.0040869.s006.ogv
- File:Biomechanika kapalin.pdf
- File:Biomechanika kvapalín a krvi.pdf
- File:Cochlin-Induced-TREK-1-Co-Expression-and-Annexin-A2-Secretion-Role-in-Trabecular-Meshwork-Cell-pone.0023070.s004.ogv
- File:Cochlin-Induced-TREK-1-Co-Expression-and-Annexin-A2-Secretion-Role-in-Trabecular-Meshwork-Cell-pone.0023070.s005.ogv
- File:Compound-Ex-Vivo-and-In-Silico-Method-for-Hemodynamic-Analysis-of-Stented-Arteries-pone.0058147.s006.ogv
- File:Compound-Ex-Vivo-and-In-Silico-Method-for-Hemodynamic-Analysis-of-Stented-Arteries-pone.0058147.s007.ogv
- File:Computational-Estimates-of-Membrane-Flow-and-Tension-Gradient-in-Motile-Cells-pone.0084524.s011.ogv
- File:Computational-Estimates-of-Membrane-Flow-and-Tension-Gradient-in-Motile-Cells-pone.0084524.s012.ogv
- File:Critical-Transitions-in-Early-Embryonic-Aortic-Arch-Patterning-and-Hemodynamics-pone.0060271.s009.ogv
- File:Efficient-Removal-of-Platelets-from-Peripheral-Blood-Progenitor-Cell-Products-Using-a-Novel-Micro-pone.0023074.s001.ogv
- File:Gliding-Swifts-Attain-Laminar-Flow-over-Rough-Wings-pone.0099901.s003.ogv
- File:Gliding-Swifts-Attain-Laminar-Flow-over-Rough-Wings-pone.0099901.s004.ogv
- File:Immersed-Boundary-Simulations-of-Active-Fluid-Droplets-pone.0162474.s001.ogv
- File:Immersed-Boundary-Simulations-of-Active-Fluid-Droplets-pone.0162474.s002.ogv
- File:Immersed-Boundary-Simulations-of-Active-Fluid-Droplets-pone.0162474.s003.ogv
- File:Immersed-Boundary-Simulations-of-Active-Fluid-Droplets-pone.0162474.s004.ogv
- File:Immersed-Boundary-Simulations-of-Active-Fluid-Droplets-pone.0162474.s005.ogv
- File:Immersed-Boundary-Simulations-of-Active-Fluid-Droplets-pone.0162474.s006.ogv
- File:In-Vitro-Shear-Stress-Measurements-Using-Particle-Image-Velocimetry-in-a-Family-of-Carotid-Artery-pone.0098209.s005.ogv
- File:Interstitial-Fluid-Flow-and-Drug-Delivery-in-Vascularized-Tumors-A-Computational-Model-pone.0070395.s014.ogv
- File:Interstitial-Fluid-Flow-and-Drug-Delivery-in-Vascularized-Tumors-A-Computational-Model-pone.0070395.s015.ogv
- File:Interstitial-Fluid-Flow-and-Drug-Delivery-in-Vascularized-Tumors-A-Computational-Model-pone.0070395.s016.ogv
- File:Interstitial-Fluid-Flow-and-Drug-Delivery-in-Vascularized-Tumors-A-Computational-Model-pone.0070395.s017.ogv
- File:Interstitial-Fluid-Flow-and-Drug-Delivery-in-Vascularized-Tumors-A-Computational-Model-pone.0070395.s018.ogv
- File:Interstitial-Fluid-Flow-and-Drug-Delivery-in-Vascularized-Tumors-A-Computational-Model-pone.0070395.s019.ogv
- File:Investigating-the-Flow-Dynamics-in-the-Obstructed-and-Stented-Ureter-by-Means-of-a-Biomimetic-pone.0087433.s001.ogv
- File:Investigating-the-Flow-Dynamics-in-the-Obstructed-and-Stented-Ureter-by-Means-of-a-Biomimetic-pone.0087433.s002.ogv
- File:Investigating-the-Flow-Dynamics-in-the-Obstructed-and-Stented-Ureter-by-Means-of-a-Biomimetic-pone.0087433.s003.ogv
- File:Mapping-of-Enzyme-Kinetics-on-a-Microfluidic-Device-pone.0153437.s006.ogv
- File:Mechanical-Stretch-and-PI3K-Signaling-Link-Cell-Migration-and-Proliferation-to-Coordinate-pone.0039992.s009.ogv
- File:Mechanical-Stretch-and-PI3K-Signaling-Link-Cell-Migration-and-Proliferation-to-Coordinate-pone.0039992.s010.ogv
- File:Mechanical-Stretch-and-PI3K-Signaling-Link-Cell-Migration-and-Proliferation-to-Coordinate-pone.0039992.s011.ogv
- File:Mechanical-Stretch-and-PI3K-Signaling-Link-Cell-Migration-and-Proliferation-to-Coordinate-pone.0039992.s012.ogv
- File:Mechanical-Stretch-and-PI3K-Signaling-Link-Cell-Migration-and-Proliferation-to-Coordinate-pone.0039992.s013.ogv
- File:Mechanical-Stretch-and-PI3K-Signaling-Link-Cell-Migration-and-Proliferation-to-Coordinate-pone.0039992.s014.ogv
- File:Mechanical-Stretch-and-PI3K-Signaling-Link-Cell-Migration-and-Proliferation-to-Coordinate-pone.0039992.s015.ogv
- File:Mechanical-Stretch-and-PI3K-Signaling-Link-Cell-Migration-and-Proliferation-to-Coordinate-pone.0039992.s016.ogv
- File:Mechanical-Stretch-and-PI3K-Signaling-Link-Cell-Migration-and-Proliferation-to-Coordinate-pone.0039992.s017.ogv
- File:Mechanical-Stretch-and-PI3K-Signaling-Link-Cell-Migration-and-Proliferation-to-Coordinate-pone.0039992.s018.ogv
- File:Mechanical-Stretch-and-PI3K-Signaling-Link-Cell-Migration-and-Proliferation-to-Coordinate-pone.0039992.s019.ogv
- File:Mechanical-Stretch-and-PI3K-Signaling-Link-Cell-Migration-and-Proliferation-to-Coordinate-pone.0039992.s020.ogv
- File:Mechanical-Stretch-and-PI3K-Signaling-Link-Cell-Migration-and-Proliferation-to-Coordinate-pone.0039992.s021.ogv
- File:Monitoring-Flower-Visitation-Networks-and-Interactions-between-Pairs-of-Bumble-Bees-in-a-Large-pone.0150844.s002.ogv
- File:Monitoring-Flower-Visitation-Networks-and-Interactions-between-Pairs-of-Bumble-Bees-in-a-Large-pone.0150844.s003.ogv
- File:Monitoring-Flower-Visitation-Networks-and-Interactions-between-Pairs-of-Bumble-Bees-in-a-Large-pone.0150844.s004.ogv
- File:Observation-of-Bacterial-Type-I-Pili-Extension-and-Contraction-under-Fluid-Flow-pone.0065563.s006.ogv
- File:Origin-of-Polar-Order-in-Dense-Suspensions-of-Phototactic-Micro-Swimmers-pone.0038895.s001.ogv
- File:Origin-of-Polar-Order-in-Dense-Suspensions-of-Phototactic-Micro-Swimmers-pone.0038895.s002.ogv
- File:Particle-Imaging-Velocimetry-Evaluation-of-Intracranial-Stents-in-Sidewall-Aneurysm-Hemodynamic-pone.0113762.s002.ogv
- File:Persistence-and-Adaptation-in-Immunity-T-Cells-Balance-the-Extent-and-Thoroughness-of-Search-pcbi.1004818.s015.ogv
- File:Persistent-Cellular-Motion-Control-and-Trapping-Using-Mechanotactic-Signaling-pone.0105406.s008.ogv
- File:Persistent-Cellular-Motion-Control-and-Trapping-Using-Mechanotactic-Signaling-pone.0105406.s009.ogv
- File:Persistent-Cellular-Motion-Control-and-Trapping-Using-Mechanotactic-Signaling-pone.0105406.s010.ogv
- File:Quantifying-Morphological-Parameters-of-the-Terminal-Branching-Units-in-a-Mouse-Lung-by-Phase-pone.0063552.s001.ogv
- File:Quantifying-Morphological-Parameters-of-the-Terminal-Branching-Units-in-a-Mouse-Lung-by-Phase-pone.0063552.s002.ogv
- File:Self-Rotation-of-Cells-in-an-Irrotational-AC-E-Field-in-an-Opto-Electrokinetics-Chip-pone.0051577.s003.ogv
- File:Self-Rotation-of-Cells-in-an-Irrotational-AC-E-Field-in-an-Opto-Electrokinetics-Chip-pone.0051577.s004.ogv
- File:Simulating-the-Complex-Cell-Design-of-Trypanosoma-brucei-and-Its-Motility-pcbi.1003967.s002.ogv
- File:Simulating-the-Complex-Cell-Design-of-Trypanosoma-brucei-and-Its-Motility-pcbi.1003967.s003.ogv
- File:Simulating-the-Complex-Cell-Design-of-Trypanosoma-brucei-and-Its-Motility-pcbi.1003967.s004.ogv
- File:Simulating-the-Complex-Cell-Design-of-Trypanosoma-brucei-and-Its-Motility-pcbi.1003967.s005.ogv
- File:Simulating-the-Complex-Cell-Design-of-Trypanosoma-brucei-and-Its-Motility-pcbi.1003967.s006.ogv
- File:Simulating-the-Complex-Cell-Design-of-Trypanosoma-brucei-and-Its-Motility-pcbi.1003967.s007.ogv
- File:Simulating-the-Complex-Cell-Design-of-Trypanosoma-brucei-and-Its-Motility-pcbi.1003967.s008.ogv
- File:Simulating-the-Complex-Cell-Design-of-Trypanosoma-brucei-and-Its-Motility-pcbi.1003967.s009.ogv
- File:Simulating-the-Complex-Cell-Design-of-Trypanosoma-brucei-and-Its-Motility-pcbi.1003967.s010.ogv
- File:Stiffening-Induced-High-Pulsatility-Flow-Activates-Endothelial-Inflammation-via-a-TLR2NF-B-Pathway-pone.0102195.s001.ogv
- File:Stiffening-Induced-High-Pulsatility-Flow-Activates-Endothelial-Inflammation-via-a-TLR2NF-B-Pathway-pone.0102195.s002.ogv
- File:Terminal-Platelet-Production-is-Regulated-by-Von-Willebrand-Factor-pone.0063810.s003.ogv
- File:Terminal-Platelet-Production-is-Regulated-by-Von-Willebrand-Factor-pone.0063810.s004.ogv
- File:Terminal-Platelet-Production-is-Regulated-by-Von-Willebrand-Factor-pone.0063810.s005.ogv
- File:The-Kinematics-of-Swimming-and-Relocation-Jumps-in-Copepod-Nauplii-pone.0047486.s001.ogv
- File:The-Kinematics-of-Swimming-and-Relocation-Jumps-in-Copepod-Nauplii-pone.0047486.s002.ogv
- File:The-Kinematics-of-Swimming-and-Relocation-Jumps-in-Copepod-Nauplii-pone.0047486.s004.ogv
- File:Trypanosome-Motion-Represents-an-Adaptation-to-the-Crowded-Environment-of-the-Vertebrate-Bloodstream-ppat.1003023.s002.ogv
- File:Trypanosome-Motion-Represents-an-Adaptation-to-the-Crowded-Environment-of-the-Vertebrate-Bloodstream-ppat.1003023.s003.ogv
- File:Trypanosome-Motion-Represents-an-Adaptation-to-the-Crowded-Environment-of-the-Vertebrate-Bloodstream-ppat.1003023.s004.ogv
- File:Trypanosome-Motion-Represents-an-Adaptation-to-the-Crowded-Environment-of-the-Vertebrate-Bloodstream-ppat.1003023.s005.ogv
- File:Trypanosome-Motion-Represents-an-Adaptation-to-the-Crowded-Environment-of-the-Vertebrate-Bloodstream-ppat.1003023.s006.ogv
- File:Trypanosome-Motion-Represents-an-Adaptation-to-the-Crowded-Environment-of-the-Vertebrate-Bloodstream-ppat.1003023.s007.ogv
- File:Trypanosome-Motion-Represents-an-Adaptation-to-the-Crowded-Environment-of-the-Vertebrate-Bloodstream-ppat.1003023.s008.ogv
- File:Trypanosome-Motion-Represents-an-Adaptation-to-the-Crowded-Environment-of-the-Vertebrate-Bloodstream-ppat.1003023.s009.ogv
- File:Trypanosome-Motion-Represents-an-Adaptation-to-the-Crowded-Environment-of-the-Vertebrate-Bloodstream-ppat.1003023.s010.ogv
- File:Trypanosome-Motion-Represents-an-Adaptation-to-the-Crowded-Environment-of-the-Vertebrate-Bloodstream-ppat.1003023.s011.ogv
- File:Trypanosome-Motion-Represents-an-Adaptation-to-the-Crowded-Environment-of-the-Vertebrate-Bloodstream-ppat.1003023.s012.ogv
- File:Trypanosome-Motion-Represents-an-Adaptation-to-the-Crowded-Environment-of-the-Vertebrate-Bloodstream-ppat.1003023.s013.ogv
- File:Trypanosome-Motion-Represents-an-Adaptation-to-the-Crowded-Environment-of-the-Vertebrate-Bloodstream-ppat.1003023.s014.ogv
- File:Trypanosome-Motion-Represents-an-Adaptation-to-the-Crowded-Environment-of-the-Vertebrate-Bloodstream-ppat.1003023.s015.ogv
- File:Wet-Adhesion-and-Adhesive-Locomotion-of-Snails-on-Anti-Adhesive-Non-Wetting-Surfaces-pone.0036983.s001.ogv