@MelissaTheeler Credit here! https://t.co/xQcXSvlNdg
RT @The_Buzz_Club: Dandelions #WeedoftheWeek! Believed in #AncientGreece to cure any illness, they have great #ecologicalimportance, feed…
RT @The_Buzz_Club: Dandelions #WeedoftheWeek! Believed in #AncientGreece to cure any illness, they have great #ecologicalimportance, feed…
RT @The_Buzz_Club: Dandelions #WeedoftheWeek! Believed in #AncientGreece to cure any illness, they have great #ecologicalimportance, feed…
RT @The_Buzz_Club: Dandelions #WeedoftheWeek! Believed in #AncientGreece to cure any illness, they have great #ecologicalimportance, feed…
RT @The_Buzz_Club: Dandelions #WeedoftheWeek! Believed in #AncientGreece to cure any illness, they have great #ecologicalimportance, feed…
Dandelions are carrying the team out here! #lovedandelions
RT @The_Buzz_Club: Dandelions #WeedoftheWeek! Believed in #AncientGreece to cure any illness, they have great #ecologicalimportance, feed…
RT @The_Buzz_Club: Dandelions #WeedoftheWeek! Believed in #AncientGreece to cure any illness, they have great #ecologicalimportance, feed…
Dandelions #WeedoftheWeek! Believed in #AncientGreece to cure any illness, they have great #ecologicalimportance, feeding many & having a <10ft tap root which brings up nutrients for shorter rooted plants. Their seeds, pappus, fly using a bubble
RT @harold_hawaiki: Morphology and structure of the dandelion seed unit https://t.co/NgbdC2Nk4a & A separated vortex ring underlies the fli…
RT @harold_hawaiki: Morphology and structure of the dandelion seed unit https://t.co/NgbdC2Nk4a & A separated vortex ring underlies the fli…
Morphology and structure of the dandelion seed unit https://t.co/NgbdC2Nk4a & A separated vortex ring underlies the flight of the dandelion https://t.co/qbay6mKRlB
RT @nakayama_naomi: @eLife @LeverhulmeTrust Previously, we studied the flight mechanism of the dandelion diaspore, revealing a previously u…
RT @nakayama_naomi: @eLife @LeverhulmeTrust Previously, we studied the flight mechanism of the dandelion diaspore, revealing a previously u…
RT @nakayama_naomi: @eLife @LeverhulmeTrust Previously, we studied the flight mechanism of the dandelion diaspore, revealing a previously u…
@eLife @LeverhulmeTrust Previously, we studied the flight mechanism of the dandelion diaspore, revealing a previously unknown flow behaviour (separated vortex ring) around the pappus. https://t.co/E59Y4u4HbI 2/n
3 ways seeds are dispersed. Nature is amazing! 🌱Kinesis ~ Wild oat (Avena sterilis) https://t.co/H61QcuviJi 🌱Ballistic ~ Himalayan balsam (Impatiens glandulifera) https://t.co/cExFrteWpk 🌱Wind ~ Dandelion (Taraxacum officinale) https://t.co/HMibtHlKyh #n
RT @HotPaperTweet: 【植物】【流体力学】タンポポの綿毛が遠くへ種子を運ぶ仕掛けは空気の渦にあり。 https://t.co/0E0nzGRiMN
RT @HotPaperTweet: 【植物】【流体力学】タンポポの綿毛が遠くへ種子を運ぶ仕掛けは空気の渦にあり。 https://t.co/0E0nzGRiMN
RT @HotPaperTweet: 【植物】【流体力学】タンポポの綿毛が遠くへ種子を運ぶ仕掛けは空気の渦にあり。 https://t.co/0E0nzGRiMN
RT @HotPaperTweet: 【植物】【流体力学】タンポポの綿毛が遠くへ種子を運ぶ仕掛けは空気の渦にあり。 https://t.co/0E0nzGRiMN
RT @HotPaperTweet: 【植物】【流体力学】タンポポの綿毛が遠くへ種子を運ぶ仕掛けは空気の渦にあり。 https://t.co/0E0nzGRiMN
RT @HotPaperTweet: 【植物】【流体力学】タンポポの綿毛が遠くへ種子を運ぶ仕掛けは空気の渦にあり。 https://t.co/0E0nzGRiMN
【植物】【流体力学】タンポポの綿毛が遠くへ種子を運ぶ仕掛けは空気の渦にあり。 https://t.co/0E0nzGRiMN
@Xu_xu_forever None of the two. We describe the process in this paper. https://t.co/rYO7KX1I6q
@DandelionAppre1 Glad to hear our work could explain what you see in the field. We previously showed how the dandelion flies so well with a bunch of bristles. https://t.co/qc4hogp8Wt You are our favourite Twitter group. Thanks so much for the daily dos
RT @dynamicsoar: いつもの https://t.co/jFXA2xBIX2 タンポポのあれ #生き物雑談
いつもの https://t.co/jFXA2xBIX2 タンポポのあれ #生き物雑談
RT @DandelionAppre1: So fascinating and informative. Take a read people so interesting. Thanks @charliesousbois #InternationalDayoftheDande…
RT @charliesousbois: Most Dandelion seeds disperse locally, but in warmer drier conditions they can travel kilometers. How? The porosity of…
RT @charliesousbois: Most Dandelion seeds disperse locally, but in warmer drier conditions they can travel kilometers. How? The porosity of…
RT @charliesousbois: Most Dandelion seeds disperse locally, but in warmer drier conditions they can travel kilometers. How? The porosity of…
So fascinating and informative. Take a read people so interesting. Thanks @charliesousbois #InternationalDayoftheDandelion
Most Dandelion seeds disperse locally, but in warmer drier conditions they can travel kilometers. How? The porosity of the bristles on dandelion seeds are precisely tuned to generate a special vortex that allows them to fly https://t.co/gOVVrbfqif
@MrCurious0 Sure. Spent months of sweet life on it. Even mailed couple of the authors for it. My idea was to bulid a fragile non-reusable spy drone with the same structure (More or less) which failed :) https://t.co/p8zIAQ7Sst https://t.co/ZOi7L7ySym ht
リンク先にもあるが論文はこれ: https://t.co/4KWWCxqLQV アブストだけ読んだ。Tom Daniel が 3rd author(他の工学の人は知らない)。 タンポポ渦論文 https://t.co/jFXA2xBIX2 も、少し前の https://t.co/2QmVDessuu も Nature だし、最近こういうの好きなのか…
A separated vortex ring underlies the flight of the dandelion https://t.co/Wjl6eqQOqn #OpenAccess
The funny thing here is this imagery used to describe the microfliers shows a dandelion, whose method of flight is nothing like the method they've replicated with the spinney machines. https://t.co/1XKw9U5LNC
Beautifully illustrated talk from @nakayama_naomi to close #dbio21 covering different aspects of Biodesign. Presenting some of the amazing work on dandelion seed flight: https://t.co/mPaSVHd3bO
Source : A separated vortex ring underlies the flight of the dandelion, Cathal Cummins et al., Nature, 2018. https://t.co/Jlx7veXBjD
Source: https://t.co/oLSpL4drIw 📸 Cummins et al., 2018 and Brian Jackson
Thought of you @CathalPCummins when I saw this #research #nature #dandelion #science https://t.co/vZ8GrePb6R https://t.co/8prv9nFYrr
RT @DNThomas01: @rvosa Further look at this extraordinary illustration led on to a fascinating few moments on the "flight of the dandelion"…
@rvosa Further look at this extraordinary illustration led on to a fascinating few moments on the "flight of the dandelion" Summary https://t.co/0bk1QTp1SX Paper https://t.co/59x0WkCZ7R @DandelionAppre1
暖かくなってきたせいか、タンポポを道端でよく見かけるのですが、タンポポの綿毛(種子)の飛距離について研究した論文が出ているとは知りませんでした。https://t.co/mbVw4Xh3AS
RT @VOILAb_UoE: When #Biology and #Engineering meet #modernart ! Available every spring, for #free! https://t.co/nTQqRp26AT @CathalPCummins…
When #Biology and #Engineering meet #modernart ! Available every spring, for #free! https://t.co/nTQqRp26AT @CathalPCummins @MaddySeale @nakayama_naomi #cattelanbanana #Dandelion https://t.co/uv4Tos95LD
RT @theiskbt: Cool sketchnote on an exciting matter. The vortex rings remind me to the smoke rings from my physics show! https://t.co/BpXvW…
RT @nakayama_naomi: For prequels and sequels to https://t.co/E59Y4u4HbI, please tune into the Dandelion Form and Function project page http…
RT @szerszynski: @RobGMacfarlane Yes pappose seeds are fascinating - an example of what I call 'shifting', whereby plants enable their larg…
@RobGMacfarlane Yes pappose seeds are fascinating - an example of what I call 'shifting', whereby plants enable their large seeds to move like small things. https://t.co/FkvxKeBSA7 They also fly by creating a separated vortex above them! (Image from http
Amazing video by @fyfluiddynamics about the #flight of the #dandelion described in @nature (https://t.co/nrzqlBJMFB) @CathalPCummins @MaddySeale @EnricoUoe @ignaziomariav @nakayama_naomi @VOILAb_UoE
RT @nakayama_naomi: Dandelion reveals a new type of flight mechanism. https://t.co/E59Y4u4HbI The highly porous parachute allows leaky flow…
RT @Rob_Dimeo: Why do dandelion seeds fly so far on the wind? Sketchnote of a very cool paper by @nakayama_naomi and colleagues recently pu…
RT @Rob_Dimeo: Why do dandelion seeds fly so far on the wind? Sketchnote of a very cool paper by @nakayama_naomi and colleagues recently pu…
RT @Rob_Dimeo: Why do dandelion seeds fly so far on the wind? Sketchnote of a very cool paper by @nakayama_naomi and colleagues recently pu…
RT @Rob_Dimeo: Why do dandelion seeds fly so far on the wind? Sketchnote of a very cool paper by @nakayama_naomi and colleagues recently pu…
RT @nakayama_naomi: Wow, a fantastic sketchnote of our dandelion flight paper by @Rob_Dimeo - Team D, check it out @CathalPCummins @MaddySe…
RT @Rob_Dimeo: Why do dandelion seeds fly so far on the wind? Sketchnote of a very cool paper by @nakayama_naomi and colleagues recently pu…
RT @Rob_Dimeo: Why do dandelion seeds fly so far on the wind? Sketchnote of a very cool paper by @nakayama_naomi and colleagues recently pu…
@Valeriasketches
RT @nakayama_naomi: Wow, a fantastic sketchnote of our dandelion flight paper by @Rob_Dimeo - Team D, check it out @CathalPCummins @MaddySe…
RT @Rob_Dimeo: Why do dandelion seeds fly so far on the wind? Sketchnote of a very cool paper by @nakayama_naomi and colleagues recently pu…
RT @Rob_Dimeo: Why do dandelion seeds fly so far on the wind? Sketchnote of a very cool paper by @nakayama_naomi and colleagues recently pu…
Wow, a fantastic sketchnote of our dandelion flight paper by @Rob_Dimeo - Team D, check it out @CathalPCummins @MaddySeale @EnricoUoe @VOILAb_UoE! Thanks so much, Rob (and nice to #TwitterMeet you)!
RT @Rob_Dimeo: Why do dandelion seeds fly so far on the wind? Sketchnote of a very cool paper by @nakayama_naomi and colleagues recently pu…
RT @Rob_Dimeo: Why do dandelion seeds fly so far on the wind? Sketchnote of a very cool paper by @nakayama_naomi and colleagues recently pu…
RT @Rob_Dimeo: Why do dandelion seeds fly so far on the wind? Sketchnote of a very cool paper by @nakayama_naomi and colleagues recently pu…
So many interesting ideas in this Sketchnote of the glorious @Rob_Dimeo - text boxes with first letter breaking the frame - adding a joke or personal note into it (he's a pro in that!) - using black for the main drawings and grey for additions
RT @Rob_Dimeo: Why do dandelion seeds fly so far on the wind? Sketchnote of a very cool paper by @nakayama_naomi and colleagues recently pu…
Beautiful.
RT @Rob_Dimeo: Why do dandelion seeds fly so far on the wind? Sketchnote of a very cool paper by @nakayama_naomi and colleagues recently pu…
Cool sketchnote on an exciting matter. The vortex rings remind me to the smoke rings from my physics show!
Why do dandelion seeds fly so far on the wind? Sketchnote of a very cool paper by @nakayama_naomi and colleagues recently published in @nature that sheds light on the fascinating phenomenon behind this traveling wonder: vortices! https://t.co/DFg9KjZJNh ht
タンポポは種を遠くに飛ばすための冠毛をもつ。しかし、その物理学的メカニズムはわかっていない。種の周りの流れを可視化し新しい種類の流体挙動を発見した。また冠毛と同等のポロシティを持つ円盤が冠毛の流体挙動を再現できることがわかった。https://t.co/U0PbIUuiON GA
Dandelions reveal newly found form of flight @EdinburghUni https://t.co/7a05KHiBdP Congratulations @nakayama_naomi @ignaziomariav and all involved!
RT @nature: Insights into the flight of dandelion seeds are revealed in a paper published in Nature. By investigating the physics underlyin…
RT @cmerrickbio: ABSOLUTELY FANTASTIC talk by @MaddySeale, PDRA @nakayama_naomi lab, on the structure and function of dandelion seeds @Synt…
RT @cmerrickbio: ABSOLUTELY FANTASTIC talk by @MaddySeale, PDRA @nakayama_naomi lab, on the structure and function of dandelion seeds @Synt…
RT @cmerrickbio: ABSOLUTELY FANTASTIC talk by @MaddySeale, PDRA @nakayama_naomi lab, on the structure and function of dandelion seeds @Synt…
ABSOLUTELY FANTASTIC talk by @MaddySeale, PDRA @nakayama_naomi lab, on the structure and function of dandelion seeds @SynthSysEd OCM this morning. Blooming marvellous work.
RT @nakayama_naomi: Dandelion reveals a new type of flight mechanism. https://t.co/E59Y4u4HbI The highly porous parachute allows leaky flow…
RT @fyfluiddynamics: Kicking off my day at #APSDFD with dandelion flight from @VOILAb_UoE https://t.co/5hqcux4sJ5
RT @fyfluiddynamics: Kicking off my day at #APSDFD with dandelion flight from @VOILAb_UoE https://t.co/5hqcux4sJ5
Thought of you @DandelionChoco
Kicking off my day at #APSDFD with dandelion flight from @VOILAb_UoE https://t.co/5hqcux4sJ5
🌈✨🌪🧚♂️💨💨🌈 https://t.co/bAyUVRHoKt
今更ながら Nature に掲載されていたたんぽぽの綿毛の実験論文を眺めている.素晴らしい.// https://t.co/4zm0sHK6w6
RT @davidNbreslauer: New science! Porous dandelion structure causes a non-shedding separated vortex ring "bubble" that maintains dandelion…
RT @davidNbreslauer: New science! Porous dandelion structure causes a non-shedding separated vortex ring "bubble" that maintains dandelion…
RT @davidNbreslauer: New science! Porous dandelion structure causes a non-shedding separated vortex ring "bubble" that maintains dandelion…
@elonmusk here is another opportunity to disrupt the transportation industry, suggested by scientists https://t.co/Om1IhcrWYt
This project is so cool -- check out the video of one dandelion seed "carrying" another!
A dandelion in freefall - beautiful vortex: https://t.co/FqiM6R9ze5 https://t.co/e0vzUyxdMq
RT @JenniferMcElwa3: Amazing biology and the process of evolution https://t.co/B5jmCuzFFi
RT @nakayama_naomi: Dandelion reveals a new type of flight mechanism. https://t.co/E59Y4u4HbI The highly porous parachute allows leaky flow…