RT @recherche_anima: How flight feathers stick together to form a continuous morphing wing 🦅🕊 😃👍 https://t.co/RMvzJPZ4f5 #pigeon 🕊️ https:…
How flight feathers stick together to form a continuous morphing wing 🦅🕊 😃👍 https://t.co/RMvzJPZ4f5 #pigeon 🕊️ https://t.co/yTBwGHILEd
How flight feathers stick together to form a continuous morphing wing https://t.co/bNQg7u5kIx
RT @enerphyschem: 1/2 I think: #Ai #3Dmodeling..waves-overlays/mechanically/morpho-structurals/(over)stretch/..in stress/effort/flexibility…
RT @SciTechMachINe: 1/2 I think: #Ai #3Dmodeling..waves-overlays/mechanically/morpho-structurals/(over)stretch/..in stress/effort/flexibili…
RT @qualityisarul3: 1/2 I think: #Ai #3Dmodeling..waves-overlays/mechanically/morpho-structurals/(over)stretch/..in stress/effort/flexibili…
2/2 for..vehicles/astro-aero-nautical..container tanks of..fuels..which are..cracked, broken..&..have..change, structural wear, damage, leak..& explode in..ignition tests; Oxidize; Knock-Impact-Collision; Smart Layers 😊
1/2 I think: #Ai #3Dmodeling..waves-overlays/mechanically/morpho-structurals/(over)stretch/..in stress/effort/flexibility/adaptability (atom)molecular..to the heat/friction-force-pressure/..could improve..metals/experimental materials
2/2 for..vehicles/astro-aero-nautical..container tanks of..fuels..which are..cracked, broken..&..have..change, structural wear, damage, leak..& explode in..ignition tests; Oxidize; Knock-Impact-Collision; Smart Layers 😊
1/2 I think: #Ai #3Dmodeling..waves-overlays/mechanically/morpho-structurals/(over)stretch/..in stress/effort/flexibility/adaptability (atom)molecular..to the heat/friction-force-pressure/..could improve..metals/experimental materials
RT @argonne: How do birds alter the shape of their wings during flight? Researchers investigate this mystery at @advancedphoton @sciencemag…
RT @argonne: How do birds alter the shape of their wings during flight? Researchers investigate this mystery at @advancedphoton @sciencemag…
RT @argonne: How do birds alter the shape of their wings during flight? Researchers investigate this mystery at @advancedphoton @sciencemag…
How do birds alter the shape of their wings during flight? Researchers investigate this mystery at @advancedphoton @sciencemagazine - https://t.co/w6ydiv54Hq https://t.co/4a3iIldxsP
How flight feathers stick together to form a continuous morphing wing https://t.co/vozN8MIi9s
RT @SciRobotics: By uncovering more about what gives #birds unparalleled control over flight, two new studies in Science #Robotics and @sci…
RT @SciRobotics: By uncovering more about what gives #birds unparalleled control over flight, two new studies in Science #Robotics and @sci…
RT @SciRobotics: By uncovering more about what gives #birds unparalleled control over flight, two new studies in Science #Robotics and @sci…
RT @SciRobotics: By uncovering more about what gives #birds unparalleled control over flight, two new studies in Science #Robotics and @sci…
How flight feathers stick together to form a continuous morphing wing https://t.co/40krP2mTxf
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @SciRobotics: By uncovering more about what gives #birds unparalleled control over flight, two new studies in Science #Robotics and @sci…
How flight feathers stick together to form a continuous morphing wing https://t.co/VE2oek5tIR
Wow wow wow !
RT @dynamicsoar: SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフック…
RT @SodaliteJatholo: For the birb people: How flight feathers stick together to form a continuous morphing wing https://t.co/lD3jmX4QhW @…
RT @dynamicsoar: SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフック…
RT @SodaliteJatholo: For the birb people: How flight feathers stick together to form a continuous morphing wing https://t.co/lD3jmX4QhW @…
How flight feathers stick together to form a continuous morphing wing https://t.co/dwXhBgtbiS @sciencemagazine
RT @SodaliteJatholo: For the birb people: How flight feathers stick together to form a continuous morphing wing https://t.co/lD3jmX4QhW @…
RT @SodaliteJatholo: For the birb people: How flight feathers stick together to form a continuous morphing wing https://t.co/lD3jmX4QhW @…
RT @SodaliteJatholo: For the birb people: How flight feathers stick together to form a continuous morphing wing https://t.co/lD3jmX4QhW @…
RT @SciRobotics: By uncovering more about what gives #birds unparalleled control over flight, two new studies in Science #Robotics and @sci…
RT @dynamicsoar: SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフック…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
Fascinating stuff: https://t.co/mLNlcRPPXt
How flight feathers stick together to form a continuous morphing wing https://t.co/HToxL3SETc
RT @Big_Biology: We've got your flying robots right here: https://t.co/9NTgD8i99z https://t.co/SlZX8nvKSp
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
How flight feathers stick together to form a continuous morphing wing https://t.co/IhIe7icgW0 "Whenever the skeleton moves, the feathers are redistributed passively through compliance of the elastic connective tissue at the feather base." https://t.co/fI1
RT @dynamicsoar: SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフック…
By uncovering more about what gives #birds unparalleled control over flight, two new studies in Science #Robotics and @sciencemagazine pave the way to flying #robots that can maneuver the air as nimbly as birds: https://t.co/t3maSq2gN2 https://t.co/xPWQb
RT @dynamicsoar: SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフック…
RT @dynamicsoar: SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフック…
RT @dynamicsoar: SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフック…
RT @dynamicsoar: SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフック…
RT @dynamicsoar: SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフック…
RT @dynamicsoar: SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフック…
RT @sciencemagazine: Birds fly in a meticulous manner not yet replicable by human-made machines—though the findings in two new studies pave…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @dynamicsoar: SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフック…
Ooo Now...can anyone explain how Angels or Dragons have 4 shoulder blades? Much less what - exactly - happens when they fall to Earth? Does a Seraphin rip them off? Or an Ampersand? Or a Archangel? Seems harsh for loving a human & wanting babies A
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @SodaliteJatholo: For the birb people: How flight feathers stick together to form a continuous morphing wing https://t.co/lD3jmX4QhW @…
RT @dynamicsoar: SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフック…
RT @dynamicsoar: SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフック…
RT @sciencemagazine: Birds fly in a meticulous manner not yet replicable by human-made machines—though the findings in two new studies pave…
For the birb people: How flight feathers stick together to form a continuous morphing wing https://t.co/lD3jmX4QhW @Vantidart @LauraGarabedian @sassyparrot @LarryDixonTGK @windfalcon @haliaeetus123
RT @sciencemagazine: Birds fly in a meticulous manner not yet replicable by human-made machines—though the findings in two new studies pave…
RT @dynamicsoar: SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフック…
RT @dynamicsoar: SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフック…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @dynamicsoar: SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフック…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @dynamicsoar: SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフック…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
SICB2020のposterで「もうすぐScienceに出るよ」と聞いていた研究。まず鳥の隣り合った風切羽同士がフックでつながっているというアナトミーの話;羽根同士の接続を引き剥がす実験では、カワラバトでは騒音になる一方、メンフクロウはフックがないため静か、ただし引き剥がしへの抵抗は他の鳥より弱い
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @sciencemagazine: Birds fly in a meticulous manner not yet replicable by human-made machines—though the findings in two new studies pave…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @sciencemagazine: Birds fly in a meticulous manner not yet replicable by human-made machines—though the findings in two new studies pave…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
This is so cool 🤩🤩
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @kevinwinker: Alright, as an ornithologist I think I can say that this is some Very Cool Shit. Biomimicry and future engineering potenti…
RT @sciencemagazine: Birds fly in a meticulous manner not yet replicable by human-made machines—though the findings in two new studies pave…
How flight feathers stick together to form a continuous morphing wing | Science https://t.co/d6WU4SUT27
RT @sciencemagazine: Birds fly in a meticulous manner not yet replicable by human-made machines—though the findings in two new studies pave…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
Here is an image from the paper on this: (paper is here: https://t.co/8WNcA4shBF) https://t.co/O9xipddLmf
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
Flight feathers are connected by Velcro-like hooks which are robust to turbulence. But also noisy, which is why they're absent in silent fliers like owls: https://t.co/r78lwWtP9C #science #birds
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @kevinwinker: Alright, as an ornithologist I think I can say that this is some Very Cool Shit. Biomimicry and future engineering potenti…