Yes. This is an amazing articulated dragon. I didn't design this one but I am working on a Mandelbulb dragon. It is not easy to design these.
@TheGoodVibrations
8 ай бұрын
Cool!
@Jaantoenen
8 ай бұрын
Wowsers!
@Cobra365
8 ай бұрын
Just the tip? How long did that take?
@FractalWoman
8 ай бұрын
This one took 26 hours to print.
@BaseSixBasics
8 ай бұрын
Hey Fractal woman!! I just want to ask, what you think of this more formal name for your model of the ether? The Positro-Magnetic Ether. Its like the Electro-magnetic field except that it describes the interaction of quasiparticles instead of regular ones
@FractalWoman
8 ай бұрын
I prefer the Aether Circulation Model. This puts the focus on the dynamics of the system (circulation) which is the cause of magnetism in this model.
@BaseSixBasics
8 ай бұрын
Good name for the model! But maybe I should have been a little more clear. I mean the name for the substance that the Aether (not ether lol the chemical) consists of. It’s like saying the field rotation model which makes sense for describing it as a whole but not for interactions within the field/aether.
@TaiBoy89
5 ай бұрын
Hello bro, you can make Fanglongmon shin in Digimon Master Online?
@FractalWoman
5 ай бұрын
Can't find a 3D printable one.
@TaiBoy89
5 ай бұрын
@@FractalWomanI'm also looking for a 3D printed model of Fanglongmon like in Digimon Master Online but I can't find it.🤧
@FractalWoman
5 ай бұрын
@@TaiBoy89 I am not very good at designing 3D models or I would do it myself. Let me know if you find anything.
@TaiBoy89
5 ай бұрын
@@FractalWoman I need his 3D model, if only this game leaked 3D data it would be great. I'll 3D print him right away. kzitem.info/news/bejne/k6OV02mCbnVyknosi=5Cool66RMCm8azlL
@JenkoRun
8 ай бұрын
Hi FW, hope the new year as been kind to you, apologies for asking you about this on an unrelated video, I didn't see any contact info available so figured I'd just ask on your latest. I was browsing around and I found an article that did some simple experiments that gave results that have me really confused, especially with what I've learned about the Aether, Fields, and Electricity from various works, do you have any ideas as to what's going on here? Is this just EM Retardation (Lenz) or something else? Especially the 2nd and last segment, I wanted to post more but the comment was too large to post: "Spinning Cylinder Experiments 2020 - 4 - 22 Document Updated for Clarity - Dave L Forwards: In Electronic we are often given information that is not true, this is the most important one to me as what we were told hides a quality of copper medium. When we bring a magnet up to a spinning copper cylinder it is pushed away and does not want to touch the cylinder. On released the magnet shoots across the room at high velocity. Some have conjectured this force that pushes the magnet away is a reversed "magnetic field" emitting from the copper cylinder in motion across it's magnetic field. They say this is a quality of "magnetism" or EM. So we set up this experiment to use a compass inside the spinning copper cylinder to measure this "reversed magnetic field", we expected to see, and discovered, it does not exist. The force pushing the magnet away from the spinning copper cylinder does not effect the magnets field or polarity of that field as when we bring two magnets together in opposition and two like poles repel. There is no North South reversal of the magnets field at all as it extends through the spinning copper. It does not even matter how we orient the magnet! The force is much stronger, then two opposing magnets can become. Seeking the answer to what this force is, takes us into the level of the Proton and the mass in motion of the copper medium. Copper is not magnetic, it is electric, and from this experiment we discern it also has some interesting "inertial" coupling qualities. The force of the spinning mass of the copper is transferred into the magnets mass. The two forces we can detect when we release the magnet, one is propulsion across the room at high velocity, and one is repulsion at 90 degrees to the propulsion, keeping the magnet from touching the spinning copper. This shows us likely why the electrons in the atom do not crash into the nuclear center where the Protons and Neutrons are located, inside the "strong force" field bubble. Further we spin up a steel cylinder and note when a magnet is brought up to it, there is only one field force noted. The steel is magnetic, and yet it does not push the magnet away or try to shoot it off at 90 degrees. It simply pulls straight at the steel in rotation no matter how fast we make it spin. And one might realize why magnetic bearings are frictionless. There is no inertial mass coupling between them." "Dropping a Magnet Through a Copper Medium 2020 - 4 - 22 Dave L This experiment is not what you may think going in, surprising results. [Photo Copper Pipe and Large Coil] Some Items of Copper are arranged so that a large Neo magnet can be dropped down through them. The magnet is seen in the lower left corner of the photo above. We have a large copper pipe on the left of the photo. A 5000 foot plus coil of 24 Gauge wire on a plastic spool with the holes widened so the copper pipe will fit inside it, and another short copper pipe that can be dropped through the energized coil. First we drop the magnet through the large copper pipe and note it takes a few seconds to fall slowly down through it. From our experiments above we realize the magnet will receive the coppers mass momentum, in this case to "set still" and resist falling. No problem, so what we expected to see. We turn the magnet sideways 90 degrees and drop it through again, no effect, it still falls just as slowly no matter how we orient the poles of the magnet. Next we drop the magnet through the coil of wire which has about 4 or 5 times the weight of the copper tube and is wound all the way from the center tube that is very close to the hole. It (the magnet in the copper tube) free falls, with no resistance to falling! For me that was unexpected. We try configuring the wires in various ways, shorting them, reversing them, etc, it has no effect and we cannot get the magnet to fall slower through the wire coil at all, then a free fall acceleration.* *Next we energize the coil with 12 vdc testing this field using various iron things like paper clips, nails, and the magnet itself, and we find it has a pretty strong field especially at the poles. We now drop the smaller copper pipe through it's magnetic field. It free falls also with no resistance to falling! This also was unexpected, as we tend to think of the magnetic field from a coil as the same as from a magnet. It is apparently not. This magnetic field being generated from a current in the copper wire does not effect the copper medium falling through it, to slow it's fall. It does not couple the inertial field between the two elements. Yet we have seen that with a real magnet falling though a solid copper mass it does have an inertial coupling effect" Copper wire, whether energized or not, does not seem to effect the inertial coupling of other copper. What ever is happening between copper and iron, is happening at some level of dimension we are not able to see right off." "Why does the magnet free fall through the copper wire coil with 4 to 5 times the mass of the copper tube? The very thin wires of the coil are surrounded by dielectric insulation, and the Isotope fields cannot reach between the wraps to form a coherent Isotope field larger then the magnet. The inertial charge on each wire does not couple to the magnets atoms, as it does when falling through the solid copper pipe with the very large coherent Isotope field on it. Now when we drop the copper tube through the energized coil, it does change the angle of the large Isotope field on the copper tube, but they are not transferred as inertial fields into the coil, because the wire is not made of Iron. While Copper and Iron lay very close to one another on the table of the elements, the Neutron Proton structure is very different between them. If we make a coil having a 2 layered core, the center core is iron with a copper tube around it, the inductive kickback on this coil is tremendously strong. What we would call back emf, or cemf [ counter electro motive force ], increases geometrically. This is because when the large scale isotope field forms it is geometrically larger in all it's dimensions. When it collapses back to normal, it also torques the irons mass field. Wire coils produce the same, but the field is so small it does not amplify much over what goes in. *We also later discovered that if motor wire is used, the insulation is very thin and corrects this problem, Through such a coil the magnet will drop slower and generate an electric field on the wire if the wires are either shorted or set up to drive a circuit. Thus with motor wire the larger Isotope cone does form vertically around the coils as with a copper pipe."* Those last 2 experiments have me utterly confused and I cannot figure out why this would be occurring, I rely on visualizing the fields and what they are doing to understand things like this over math and more metrical methods so these results have left me very, very confused. For the rest of the paper and data the website is resonantfractals(dot)org under the Magnetism > Experimental Record section. Kind Regards -R
@FractalWoman
8 ай бұрын
Yes, this message is quite long. 🙂I didn't have a quick answer so I asked ChatGPT. Here is IT's response: "When a magnet is brought near a spinning copper cylinder, an interesting phenomenon known as the "homopolar generator effect" or "Faraday disk effect" can occur. This effect is a consequence of electromagnetic induction. When the copper cylinder is spun, it creates a rotating magnetic field due to its motion. If the magnet is brought close to the spinning copper cylinder, the changing magnetic field induces an electric current in the copper. This induced current creates its own magnetic field, and the interaction between the induced magnetic field and the approaching magnet leads to a force that can affect the motion of the magnet. The direction of the induced current and magnetic field depends on the direction of rotation of the copper cylinder and the orientation of the magnet. According to the right-hand rule, if you point your thumb in the direction of the induced current, your index finger in the direction of the magnetic field, your middle finger will point in the direction of the force acting on the system. In this scenario, the induced current in the copper creates a magnetic field that interacts with the magnet, resulting in a force that may either attract or repel the magnet, depending on the specific orientation of the components. It's important to note that the efficiency of this effect depends on various factors, such as the speed of rotation, the strength of the magnetic field, and the conductivity of the material. This effect is a demonstration of the principles of electromagnetic induction, a phenomenon discovered by Michael Faraday in the 19th century."
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