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In ancient Egypt a Thanagarian spaceship made of Nth metal crash-landed, only to be found by Prince Khufu and his betrothed, Chay-ara. Constant exposure to Nth metal forced Khufu and Chay-ara into a cycle of reincarnation. In the 20th century, they are incarnated as Carter Hall and Shiera Saunders, the original Hawkman and Hawkgirl. As Hawkman and Hawkgirl, they wear Nth metal belts, made with the help of the Thanagarian Paran Katar, father of Katar Hol, when he is visiting Earth.
Many years later, Carter and Shiera's son, Hector Hall, made a suit of armor of Nth metal and took the name Silver Scarab as a founding member of Infinity Inc. The suit gave him protection from attacks, let him lift great weights, and allowed him to fly and project solar energy blasts.
Promethium is a metal alloy with two quite different isotopes, "depleted" and "volatile". Promethium's properties, key among which is that it's virtually indestructible with self restorative properties; make it highly coveted by various public and clandestine interests. The mercenary Deathstroke, for example, uses a suit of the volatile type which could mend itself after being damaged. Both young heroes Victor Stone's bionic chassis and Roy Harper's body armor were made of the depleted variety.
Depleted promethiumThe most common isotope of promethium is the inert element that is easier to sell and managed on a grander scale. By itself it is extremely durable, Ronnie Raymond once commented even Superman couldn't break it even with his strength. When Depleted Promethium is alloyed with other dense metals such as Kevlar or molybdenum-steel, it forms a near-invulnerable metal polymer.
The supervillain Prometheus got his powers after being dunked in a solution of titanium/vanadium alloy infused with promethium while working at Kord Industries as a foreman in its smelting plant. Retaining a metallic epidermal layer with the ability to heat up his body by several kelvin able to burn at a touch.
Perhance is a platform that allows you to create your own custom random generators. You could use it to create your own random text generator for a tabletop RPG, or to make your own random name generator, or to simply create a generator which selects a random item from your list with different weights. You can also save your generator so it has a permalink that you can share with your friends.
Perchance is based around creating lists which reference other lists. You can adjust the odds of items in each list so that when you randomly select an item from that list, they all have the likelihoods that you've specified. If you'd like to learn how to make a random text generator with Perchance, you should check out the tutorial. It explains all the basic features of the Perchance engine and should get you up and running in only 10 or 20 minutes. Perchance has many powerful features that you don't need to learn from the start, but can learn later if you want to create particularly complex generators.
I created Perchance because most people are still creating random generators in excel. Those work all right, but excel and other spreadsheets aren't really made for that purpose, so there's a lot to be desired in terms of functionality and ease of use. Whatever you're using it for, I hope you find Perchance useful! You might like to check out our community forum where you can ask questions and share your random generator creations.
Alright understandable. We do have a bunch of memory leak fixes in various ops included in the next outgoing update for tf-metal so we hope that they will also address the leaks you are seeing here. At least they do prevent this memory issue in the networks we have test coverage over.
We have now released tensorflow-metal==0.5.1 with multiple memory leak issues fixed. If you can, please try out tensorflow-macos==2.9.2 and tensorflow-metal==0.5.1 to see if these fixes address the problem you are seeing.
I don't see any improvement w.r.t tensorflow-metal==0.5.1 (along with both using tensorflow-macos==2.9.2 along with python 3.9.13 and tensorflow-macos==2.8.0 along python 3.8.13). In fact, I see quite a similar output from memory_profiler as below:
Figure 1e displays the energy dispersive X-ray analysis (EDX) spectrum using a FETEM of PZTNP-CNT as indicated by the solid red circle in Figure 1c, in which C element of the CNT and Pb, Zr, Ti, and O elements of PZT are identified. These observations confirm that the PZTNPs are formed well with a perovskite structure on the CNTs. The PZTNP-CNT films with a thickness of approximately 100 μm are prepared as shown in Figure 1a (i) and (ii) by mixing PZTNP-CNT with PTFE. PTFE is composed of a chain of carbon atoms with two fluorine atoms on each carbon. The chain binds to the PZTNP-CNT powder, forming a 2-dimensional film. The mixture of 80 wt % PZTNP-CNT and 20 wt % PTFE is well mixed, and then pressed by a rolling machine, until a thickness of 180 μm is attained. PZTNP-CNT is well-retained in a film form by PTFE because its flexible nature with a thread-like chain form. This feature allows the formation of a flexible film that does not crack or damage even after repetitive movements such as bending. The film was subsequently attached to a polyimide (PI) substrate coated with Au using carbon paste. An Au electrode was deposited on it, and the output voltage was measured at the time of bending by connecting an oscilloscope to both the electrodes using metal wires.
Their adsorption and migration energy are very important in the growth of metal oxide on CNT surface. Studies of the atomic migration and stability on graphene following the analysis of electronic structures using the first-principle calculation technique show that non-metallic elements such as PZT are mainly adsorbed between the nearest carbon atoms in the hexagonal structure of graphene . When comparing the amount of adsorption energy for each element, the Pb atom (1.30 eV) is lower than the other ones (Zr: 3.42 eV, Ti: 3.27 eV, O: 4.79 eV) (1.42 Å), we suggest that Pb is first adsorbed to form a seed and PZT unit cell grows based on this. The tetragonal PZT grown on the hexagonal graphene has very different lattice mismatch due to its different structure and size . This lattice mismatch causes a strain gradient in the NP.
This is how to build a Rocket Launcher from Team Fortress 2 for cosplay or to decorate your mantle. This was made at LVL1, Louisville's Hackerspace. (see more at ) Be sure to check your area for a hackerspace, they're a great place to meet new people, learn new things and get access to awesome tools. _launcherThe really awesome thing about this build is at the con you feel like you're in the game. Most prop guns don't show in your field of vision but this thing sitting on your shoulder looks exactly like what you see in game which makes being a solider even more awesome. Materials:4.5" diameter PVC pipe2" thick insulating foam0.5" thick insulating foam24x36" sheet metal1/8" craft foamsmall piece of 1/2" wood (for the handles)1/8" wood or other solid materialmodgepodgelots of hot gluepaint
Get some cheap sheet metal for the cone at the end. I used a piece I found in the air duct section at Lowes (much cheaper than the stuff with the other metal sheets). I used an online sheet metal cone generator at to create a pattern for the cone. The pattern generator will make a .dxf file, which can be opened by almost any 2D CAD program. You can skip this step by using the attached pictures; the guide lines are 5" apart. We used the image with a projector, shone it on the sheet metal and traced the lines with a perminant marker. You can also try printing the image, pasting the sheets together, and then tracing the cutout. Once you have the pattern marked, cut it out with some tin snips.Use three rivets to complete the cone.Cut the foam pieces for the end of the rocket launcher. These are just circles, 15" outer diameter and 10" inner diameter. The small, beveled one is 12" and 9.5" diameter. I used a needle and thread to mark the circles. (stick needle in the middle, tie a string to it, grip a pen with the other end of the string and spin in a circle.)Next I attached the wood part to the cone, then the cone to the bottom rings, with lots of hot glue. 2b1af7f3a8