10 Years manufacturer Neodymium magnet to Stuttgart Factories
Customized any size 15 years experience Quality & Reputation concerned Coating : NiCuNi , Zn , NiCuNi+Sn ,NiCuNi+Cr ,NiCuNi+ Au By air ( magnet power shelding package ); By sea ( plastic sack package )
10 Years manufacturer Neodymium magnet to Stuttgart Factories Detail:
Customized any size
15 years experience
Quality & Reputation concerned
Coating : NiCuNi , Zn , NiCuNi+Sn ,NiCuNi+Cr ,NiCuNi+ Au
By air ( magnet power shelding package ); By sea ( plastic sack package )
Product detail pictures:
We keep on with our business spirit of "Quality, Performance, Innovation and Integrity". We goal to create much more worth for our customers with our rich resources, state-of-the-art machinery, experienced workers and exceptional providers for 10 Years manufacturer Neodymium magnet to Stuttgart Factories, The product will supply to all over the world, such as: Myanmar , New Orleans , France , With the growing of the company, now our items sold and served at more than 15 countries around the world,such as Europe,North America,Middle-east,South America,Southern Asia and so on. As we bear in our mind that innovation is essential to our growth, new product development is constantly.Besides, Our flexible and efficient operation strategies,High quality products and competitive prices are exactly what our customers are looking for. Also a considerable service brings us good credit reputation.
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Download the template:
After you download the template you can increase the size of the template if you’d like so that you can make a bigger version.
I tape the templates to poster board then cut with a hobby knife. I fold the poster board then use scotch tape to hold them together.
The templates are not 100% perfect. So if you build this model, you might have to squish the columns a little or move the pieces a little to get it to look just right.
These are my favorite illusions. From one angle everything looks perfectly normally until you see the balls rolling uphill. When you change the angle
of the camera you see that the ramps are not as they appeared. They are actually slanting downhill instead of uphill. It’s all about the perspective
All of the work for the illusion is performed in a 3D program. The process to create these illusions is long and difficult. I basically create the
design the way it should appear and then create a duplicate of the design that will be the actual physical copy. I manipulate the duplicate in
the 3D program so that the ramps ultimately slant down but still match the original layer of the ramps that are aiming up.
Once I’ve created the ramps that slant down, I flatten the shapes, print them out, cut, fold and tape. The camera must be set up in the same
position that the camera in the 3D program was set to. The objects that you can create with this technique are unlimited.
What happens in our brain when we view an optical illusion?
The information gathered by the eye is processed in the brain to create an idea or image that does not match with a physical measurement of the stimulus source.
Here are the 10 greatest micro-robots.
Engineers and programmers are constantly at work dreaming up and creating tiny robots. Some emerge as incredibly useful tools, while others exist only as grand ideas.
Either way, here are 10 of the greatest micro-robots.
Number 10. Kilobot. Hundreds, even thousands, of machines working together as one is a great idea, especially when they’re able to organize and arrange themselves. Swarm technology has proven difficult to perfect due to cost, so this group of minis was created on the cheap for testing purposes.
Number 9. Magnetically actuated mini-robots. They’re made to built stuff, including other robots. Even more impressive is that they could perform that task in space, as their movements aren’t dependent upon gravity. The little bots are guided by magnets, which gives them greater dexterity and flexibility.
Number 8. Micro-scallops. These itsy-bitsy swimmers are designed to navigate the body’s various liquids like blood and eyeball gunk. Aquatic skills aren’t typically high the list of robot skills, but thanks to the unique nature of bodily fluids, these little guys may someday be able to deliver medications to exactly where they’re needed.
Number 7. Micro-bees. With populations of honeybees plummeting, scientists are looking for alternative means of pollinating crops. Conservation efforts for the real ones are underway, but in the event the problem is unfixable, researchers expect to be able to get the robotic version up and flying in about 10 years.
Number 6. Flapping robot. Many insects are great flyers, but their complex movements are hard to replicate. Jellyfish, on the other hand, are simple creatures. By mimicking their movements, researchers were able to make a stable machine that can take to the air unburdened by tricky mechanics.
Number 5. Bridge inspectors. Humans do what they can, but in a lot of cases they’re just too big to really get a good look in nooks, crannies, and crevasses. Enter the quarter-sized machine that can access tight spots and easily travel over bolts and rivets, even when it’s raining.
Number 4. The Mab. The Jetson’s had their faithful robot Rosie, but people of the future may be turning to the cleaning skills of Mab instead. The design competition winner deploys an army of scrubbers and dusters to make a home sparkly and fresh.
Number 3. miBots. Microscopes are wonderful for inspecting things invisible to the naked eye, but they’re useless when it comes to moving the matter around. That’s where this little device comes in handy. Between its joystick control and small probe, it gets the tiny but tough job done.
Number 2. Mini-printer. Printers take up a lot of valuable desktop real estate, but there is a smaller solution. About the size of a coffee cup, this inkjet produces words and images by travelling back and forth across a piece of paper.
Number 1. DNA nanobots. If genetic material is sequenced just right, it can create a microscopic structure capable of following a prescribed path and delivering a destination-specific payload. Hopes for the development are high, as someday they could be useful in seeking and destroying cancer cells without damaging healthy ones nearby.
Which micro-robot do you think is the most amazing?