実家でインコ飼ってるから、この研究にワクワクがとまらなかったです…🕊 https://t.co/BeFWHSzS1d.
RT @dynamicsoar: cf. 羽ばたき音関連 https://t.co/loYgQt4KLN #生き物雑談
cf. 羽ばたき音関連 https://t.co/loYgQt4KLN #生き物雑談
How flight feathers stick together to form a continuous morphing wing https://t.co/8pHQt5jGYJ
How flight feathers stick together to form a continuous morphing wing https://t.co/GRPFEByIVi
参考文献(今回は流し読みしただけ) https://t.co/WTqO2RfEUa https://t.co/sXjg5trolr velvet-like surface についてはここに繋がってくる https://t.co/loYgQsMBxF (上記2020レビューとはpublishがほぼ同時でこの話は入ってない)
鳥のように飛べる飛行機、「ピジョンボット」で実現に一歩前進 https://t.co/Rt1lJADZMG How flight feathers stick together to form a continuous morphing wing https://t.co/h8mdDSeund
RT @scipak_es: Los conocimientos sobre plumas en "PigeonBot" acercan a los robots voladores a la imitación de las aves https://t.co/WyIZp78…
RT @argonne: #ICYMI - How flight feathers stick together to form a continuous morphing wing @ScienceMagazine - https://t.co/w6ydiv54Hq htt…
RT @argonne: #ICYMI - How flight feathers stick together to form a continuous morphing wing @ScienceMagazine - https://t.co/w6ydiv54Hq htt…
Woah... #ScienceOfFlight 👩🏾🔬🕊🛩
RT @argonne: #ICYMI - How flight feathers stick together to form a continuous morphing wing @ScienceMagazine - https://t.co/w6ydiv54Hq htt…
RT @argonne: #ICYMI - How flight feathers stick together to form a continuous morphing wing @ScienceMagazine - https://t.co/w6ydiv54Hq htt…
RT @argonne: #ICYMI - How flight feathers stick together to form a continuous morphing wing @ScienceMagazine - https://t.co/w6ydiv54Hq htt…
RT @argonne: #ICYMI - How flight feathers stick together to form a continuous morphing wing @ScienceMagazine - https://t.co/w6ydiv54Hq htt…
RT @argonne: #ICYMI - How flight feathers stick together to form a continuous morphing wing @ScienceMagazine - https://t.co/w6ydiv54Hq htt…
RT @argonne: #ICYMI - How flight feathers stick together to form a continuous morphing wing @ScienceMagazine - https://t.co/w6ydiv54Hq htt…
#ICYMI - How flight feathers stick together to form a continuous morphing wing @ScienceMagazine - https://t.co/w6ydiv54Hq https://t.co/TOafjWZVIP
RT @Ben_Sheldon_EGI: This is so cool; biomechanical study of how adjacent feathers maintain integrity in flight: a must-add for ornithology…
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
RT @ENERGY: #DYK Birds alter the shape of their wings during flight? This is how they do it... 🦅 https://t.co/ugDxSvoAoD https://t.co/Kazz…
RT @ENERGY: #DYK Birds alter the shape of their wings during flight? This is how they do it... 🦅 https://t.co/ugDxSvoAoD https://t.co/Kazz…
RT @ENERGY: #DYK Birds alter the shape of their wings during flight? This is how they do it... 🦅 https://t.co/ugDxSvoAoD https://t.co/Kazz…
RT @ENERGY: #DYK Birds alter the shape of their wings during flight? This is how they do it... 🦅 https://t.co/ugDxSvoAoD https://t.co/Kazz…
RT @ENERGY: #DYK Birds alter the shape of their wings during flight? This is how they do it... 🦅 https://t.co/ugDxSvoAoD https://t.co/Kazz…
RT @ENERGY: #DYK Birds alter the shape of their wings during flight? This is how they do it... 🦅 https://t.co/ugDxSvoAoD https://t.co/Kazz…
RT @ENERGY: #DYK Birds alter the shape of their wings during flight? This is how they do it... 🦅 https://t.co/ugDxSvoAoD https://t.co/Kazz…
RT @ENERGY: #DYK Birds alter the shape of their wings during flight? This is how they do it... 🦅 https://t.co/ugDxSvoAoD https://t.co/Kazz…
@heidicleven @Lucent508
Ovo je danas u #Tehnology smislu bilo besprekorno funkcionisanje serije “slika”, ali funkcionalno, ne može protiv zvezdica, to je poenta. Može biti efikasno 100% protiv, svih koji nisu zvezdice.
RT @ENERGY: #DYK Birds alter the shape of their wings during flight? This is how they do it... 🦅 https://t.co/ugDxSvoAoD https://t.co/Kazz…
RT @ENERGY: #DYK Birds alter the shape of their wings during flight? This is how they do it... 🦅 https://t.co/ugDxSvoAoD https://t.co/Kazz…
RT @ENERGY: #DYK Birds alter the shape of their wings during flight? This is how they do it... 🦅 https://t.co/ugDxSvoAoD https://t.co/Kazz…
RT @ENERGY: #DYK Birds alter the shape of their wings during flight? This is how they do it... 🦅 https://t.co/ugDxSvoAoD https://t.co/Kazz…
RT @ENERGY: #DYK Birds alter the shape of their wings during flight? This is how they do it... 🦅 https://t.co/ugDxSvoAoD https://t.co/Kazz…
#DYK Birds alter the shape of their wings during flight? This is how they do it... 🦅 https://t.co/ugDxSvoAoD https://t.co/KazzYgLajg
RT @dynamicsoar: ・フクロウ(全てではない)の静音化としては前縁のギザギザ(セレーション)は昔から有名 ・他にもいくつかメカニズムがあり、ベルベット状の表面や後縁のフリンジも静音化に効くと言われている ・メンフクロウは隣り合った羽根同士をロックする力が弱いという…
RT @hibikiw: JAXAの機体騒音低減技術飛行実証プロジェクトの名前がFQUROH(フクロウ)なのって、風切羽の凹凸(セレーション)で静音飛行が可能なフクロウにあやかっていることに今気づいた https://t.co/zIfH5CRdi2
RT @hibikiw: JAXAの機体騒音低減技術飛行実証プロジェクトの名前がFQUROH(フクロウ)なのって、風切羽の凹凸(セレーション)で静音飛行が可能なフクロウにあやかっていることに今気づいた https://t.co/zIfH5CRdi2
JAXAの機体騒音低減技術飛行実証プロジェクトの名前がFQUROH(フクロウ)なのって、風切羽の凹凸(セレーション)で静音飛行が可能なフクロウにあやかっていることに今気づいた https://t.co/zIfH5CRdi2
RT @dynamicsoar: ・フクロウ(全てではない)の静音化としては前縁のギザギザ(セレーション)は昔から有名 ・他にもいくつかメカニズムがあり、ベルベット状の表面や後縁のフリンジも静音化に効くと言われている ・メンフクロウは隣り合った羽根同士をロックする力が弱いという…
・フクロウ(全てではない)の静音化としては前縁のギザギザ(セレーション)は昔から有名 ・他にもいくつかメカニズムがあり、ベルベット状の表面や後縁のフリンジも静音化に効くと言われている ・メンフクロウは隣り合った羽根同士をロックする力が弱いという話が最近出た https://t.co/loYgQt4cWf
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: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #ScienceMagazine pave the way to flying #robots that can maneuver the air as nimbly as birds: https://t.co/zo5mOYE2rk https://t.co/knvUM5PkFz
RT @ctorgan: New research: How flight feathers stick together to form a continuous morphing wing https://t.co/cWH54QaTu4 #biomimicry #desig…
New research: How flight feathers stick together to form a continuous morphing wing https://t.co/cWH54QaTu4 #biomimicry #design https://t.co/p2iqqzE42B
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
RT @sciencemagazine: By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #Scie…
By uncovering more about what gives #birds unparalleled control over flight, two new studies in @SciRobotics and #ScienceMagazine pave the way to flying #robots that can maneuver the air as nimbly as birds: https://t.co/zo5mOYE2rk https://t.co/knvUM5PkFz
How flight feathers stick together to form a continuous morphing wing https://t.co/CqZA01TrVN
RT @SciRobotics: By uncovering more about what gives #birds unparalleled control over flight, two new studies in Science #Robotics and @sci…
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
How flight feathers stick together to form a continuous morphing wing https://t.co/JftVcZoriu
RT @sciencemagazine: Birds fly in a meticulous manner not yet replicable by human-made machines—though the findings in two new studies pave…
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
found these fabulous figures from @LentinkLab in the latest @sciencemagazine: How flight feathers stick together to form a continuous morphing wing https://t.co/gAX9jwcxrI https://t.co/sETxWfg5Vs
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
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 @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
RT @toshitaka_szk: 論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
論文はScienceとScience Roboticsの最新号。なぜか日本のメディアには取り上げられてないけど面白かった。 https://t.co/fVpyoGjyKQ https://t.co/nNt4Avd4K1
RT @argonne: How do birds alter the shape of their wings during flight? Researchers investigate this mystery at @advancedphoton @sciencemag…