Submitted by houstoncouchguy t3_zo1kle in askscience
Comments
PvtDeth t1_j0m8qdk wrote
I once found a gecko that had died while it was on the side of a metal pole. From it's dehydration,you could tell it had been dead for at least half a day. I took it off to get rid of it and it was still stuck really well. It felt like peeling Velcro.
[deleted] t1_j0mua5d wrote
[removed]
wattnurt t1_j0lw6y4 wrote
>If you have a strong magnet on a fridge, you don't just grab it and pull it straight back. You pry it from one corner (usually sliding it off the edge of the fridge so you can pull up on one edge).
Slight correction, that's not really the reason for moving a magnet sideways for removing it, I.e. it's not because of mechanical leverage like you suggest. While the total amount of energy is of course the same no matter how you remove the magnet, the way the magnetic field lines run it is simply easier to impart that energy by sliding it sideways instead of pulling it straight up.
Wrangler444 t1_j0nf7us wrote
Nah, definitely works like a lever. Put a pull retrieval magnet flat on a metal plane and pull straight back on a rope, then lift it by levering, no contest. W = f x d. Many times the force will be required to pull straight back from the middle
[deleted] t1_j0lxr5o wrote
[removed]
[deleted] t1_j0lptp7 wrote
[removed]
[deleted] t1_j0lq6bh wrote
[removed]
[deleted] t1_j0mixs4 wrote
[removed]
[deleted] t1_j0nd0tc wrote
[removed]
[deleted] t1_j0oiat3 wrote
[removed]
goatharper t1_j0knvyk wrote
They stick to walls using many little points of contact. Any one point of contact will not hold them; they need many. So to let go, they just "unstick" one point of contact at a time until their little hands (or feet) don't have enough points of contact to stay stuck.
It's a delicate little dance they do with their muscles, but of course they do it without even thinking about it, just as you manage to stay upright on two feet without thinking about it. Took you a while to learn to do that.
Foxs-In-A-Trenchcoat t1_j0kwd0k wrote
To elaborate, there is a curving or curling process on gecko's toes/paws. They curl away from the surface to let go.
mattsslug t1_j0ltnhn wrote
Yup, I have a crested gecko, watching how he releases is quite interesting.
The way his toes curl backwards to release.
He can be stuck to the glass all day sleeping upside down with zero effort, then when he wants to move he just curls those toes and off he goes, it's all so effortless.
WesternOne9990 t1_j0m306w wrote
Curls his toes and off he goes, what a cute little rhyme about your gecko.
mattsslug t1_j0m39kr wrote
I'd like to take credit for it.....but I had no idea when typing it that it rhymed.
tarrox1992 t1_j0m53dw wrote
Sounds like you wrote it, so I don't see why you can't take credit for it.
enjoysbeerandplants t1_j0n3mch wrote
I have a gecko too, and I find it funny watching him walk or run on a flat surface, because he does it with all his little toes curled up so he doesn't stick.
[deleted] t1_j0mngjh wrote
[removed]
[deleted] t1_j0mdzdy wrote
[removed]
[deleted] t1_j0l05cu wrote
[removed]
[deleted] t1_j0mpi2r wrote
[removed]
dolfijntje t1_j0krljb wrote
how long does it take geckos to learn?
Barbara_Celarent t1_j0kwwxo wrote
They stick to surfaces as soon as they hatch, so they learn right away.
Source: I have 6 geckos and raised 5 of them from eggs.
mckulty t1_j0lnmdn wrote
Learning to peel their feet off is a simple coordination programmed in reflex arcs at the spinal cord and probably already developing at hatch-time.
Standing and walking for humans involves the ears and cerebellum and higher functions that take a lot longer to develop.
DeaddyRuxpin t1_j0lochd wrote
So it’s really very much like humans gripping something. Infants at birth already know how to curl their hand to wrap fingers around an object and grip it. No one had to teach us how to do that and our own learning just refined the process to make it more effective. The core grip coordination knowledge was already present at birth.
[deleted] t1_j0lcigf wrote
[removed]
[deleted] t1_j0ktulf wrote
[removed]
[deleted] t1_j0kulp7 wrote
[removed]
[deleted] t1_j0kxatl wrote
[removed]
[deleted] t1_j0l1kz5 wrote
[removed]
[deleted] t1_j0l1r2y wrote
[removed]
[deleted] t1_j0l5knm wrote
[removed]
[deleted] t1_j0l7uak wrote
[removed]
[deleted] t1_j0l8jjt wrote
[removed]
[deleted] t1_j0ll72v wrote
[removed]
rysto32 t1_j0lbie5 wrote
Well thanks, now I'm thinking about it and I'm stuck in this chair.
[deleted] t1_j0lcey8 wrote
[removed]
[deleted] t1_j0l4v2b wrote
[removed]
[deleted] t1_j0kqxcf wrote
[removed]
[deleted] t1_j0l364m wrote
[removed]
[deleted] t1_j0l4a60 wrote
[removed]
[deleted] t1_j0m5pqs wrote
[removed]
[deleted] t1_j0ldorx wrote
[removed]
[deleted] t1_j0knue3 wrote
[removed]
[deleted] t1_j0kv1mo wrote
[removed]
[deleted] t1_j0kvdre wrote
[removed]
[deleted] t1_j0kve6v wrote
[removed]
[deleted] t1_j0kvf5i wrote
[removed]
[deleted] t1_j0kvr3h wrote
[removed]
[deleted] t1_j0kvxl6 wrote
[removed]
[deleted] t1_j0kyzbk wrote
[removed]
[deleted] t1_j0kz07e wrote
[removed]
[deleted] t1_j0kz920 wrote
[removed]
[deleted] t1_j0l2uyu wrote
[removed]
[deleted] t1_j0l34cm wrote
[removed]
[deleted] t1_j0l4and wrote
[removed]
[deleted] t1_j0l5040 wrote
[removed]
[deleted] t1_j0l6knb wrote
[removed]
[deleted] t1_j0l764e wrote
[removed]
[deleted] t1_j0l78m4 wrote
[removed]
[deleted] t1_j0l8rye wrote
[removed]
[deleted] t1_j0lj9ru wrote
[removed]
[deleted] t1_j0llalz wrote
[removed]
[deleted] t1_j0llwaz wrote
[removed]
[deleted] t1_j0lnxfd wrote
[removed]
[deleted] t1_j0logty wrote
[removed]
[deleted] t1_j0lw6ub wrote
[removed]
[deleted] t1_j0m1axs wrote
[removed]
[deleted] t1_j0m1r9n wrote
[removed]
[deleted] t1_j0m1s1m wrote
[removed]
[deleted] t1_j0m41xg wrote
[removed]
[deleted] t1_j0m46tq wrote
[removed]
[deleted] t1_j0m4g8r wrote
[removed]
[deleted] t1_j0m5nbl wrote
[removed]
[deleted] t1_j0m7u3f wrote
[removed]
[deleted] t1_j0mb6w3 wrote
[removed]
[deleted] t1_j0mbxnu wrote
[removed]
[deleted] t1_j0me794 wrote
[removed]
[deleted] t1_j0mkfih wrote
[removed]
[deleted] t1_j0mkwir wrote
[removed]
[deleted] t1_j0mlqrj wrote
[removed]
[deleted] t1_j0mmv3i wrote
[removed]
[deleted] t1_j0mnwzk wrote
[removed]
[deleted] t1_j0mqsyu wrote
[removed]
[deleted] t1_j0mrdi6 wrote
[removed]
[deleted] t1_j0mvoo8 wrote
[removed]
[deleted] t1_j0mzazt wrote
[removed]
[deleted] t1_j0n4mvr wrote
[removed]
[deleted] t1_j0n4y1w wrote
[removed]
[deleted] t1_j0n8n92 wrote
[removed]
[deleted] t1_j0nbjub wrote
[removed]
[deleted] t1_j0nc50i wrote
[removed]
[deleted] t1_j0ndslt wrote
[removed]
[deleted] t1_j0nikgy wrote
[removed]
[deleted] t1_j0nmr42 wrote
[removed]
[deleted] t1_j0nu5eb wrote
[removed]
ZZ9_Plural t1_j0nx8bi wrote
Shear adhesion makes use of microstructures to activate adhesive forces between a surface and the gecko's toes when shear force is applied in a certain direction. That's force applied in parallel direction to the surface. Removing shear or pushing in the opposite direction will deactivate the adhesion. I'm only getting this info from an engineering paper by Hawkes et al. about gripper design, so it may be a bit different with geckos.
[deleted] t1_j0nyo42 wrote
[removed]
[deleted] t1_j0o2siw wrote
[removed]
[deleted] t1_j0obg9q wrote
[removed]
[deleted] t1_j0oe0sh wrote
[removed]
[deleted] t1_j0ohuls wrote
[removed]
[deleted] t1_j0ot0in wrote
[removed]
SmallTestAcount t1_j0sqjey wrote
Van der waal forces are not very strong, you need a lot of surface area for the effect to be noticeable. If you reduce the surface area the total force will also be reduced. The way a gecko will reduce the surface area is by peeling its feet off instead of pulling on their entire foot. It's similar to how if you want to remove tape you will peel it instead of pulling
[deleted] t1_j0knllg wrote
[removed]
0xB0BAFE77 t1_j0l6byv wrote
Funny story about geckos and VDW forces...
In 2014, a study by Hadi Izadi, Katherine Stewart, and Alexander Penlidis determined that van der Waal's force isn't the primary cause of a gecko's ability to stick to things. Instead, it's a phenomenon called contact electrification-driven (CE-driven) electrostatic interaction.
Dellit, the scientist who originally did a lot of studies on geckos and who is referenced quite often when dealing with them, dismissed CE-driven electrostatic interactions as being the reason geckos can stick to things.
The linked paper goes on to explain the flaws in Dellit's testing methods and why CE worked even after Dellit tried to eliminate it.
It should be noted that van der Waals force does play a part in the gecko's abilty to stick to things but it's not the true reason a gecko can stick to almost any surface.
Regardless of the technical reason behind the ability to stick, the setae (see-tee) on its feet are what are responsible for being able to stick and unstick. And when a gecko wants to let go, it does so the same way we remove a strong magnet from something. We pull up at one point and break the magnetic bond.
If you have a strong magnet on a fridge, you don't just grab it and pull it straight back. You pry it from one corner (usually sliding it off the edge of the fridge so you can pull up on one edge).
Geckos do the same thing. When they want to let go, they angle their setae away from the surface and this breaks the grip/attraction.
It doesn't pull its foot straight back all at once. It slightly twists, breaking contact at an edge where the force is weakest.
Edit: Typos and clarified a couple sentences.