Youth Digital

Youth Digital is a company that specializes in making online classes for kids. Ranging from making your own games to making 3d animations, they have classes for any group of kids with any lifetime longing. Want to make your own Minecraft Mod? It's here! Design a video game? Here! Print out 3d? Here! Want to create a Minecraft Server? Here! It has a LOT of separate things.

I've worked on Minecraft Mod Design, and 3D Game Design _1_ & _2_. You get these classes for a full YEAR, and the class itself only takes a week worth of time. You have a full year to add-on to your own item! And the fact that they give you a professional program to go with each class is even better! (Did I mention that the help usually can help any problem within the day?)

In all honesty, Youth Digital is amazing! If you want to just browse the site, click here. They also have a test to see which class would fit you best here. All in all, they have amazing courses that are worth the price!

Me, with my custom made armor and sword, chilling with my custom made orge.

Q.P. Carps Vs. Australia

Known as 'Carp-ageddon', 10s of millions of carps have invaded Australia and have cost the economy thru destroying and overpopulating the other species $500. The invasive species became a problem in the 1960s, after a strain of carp had escaped a fish farming business. The Female Carp lays over a million eggs, and even though they don't all survive, they damage the ecosystem. Australian Officials are realizing a retaliation using a form of the Herpes Virus that should only damage the carps. It will result in "hundreds of thousands, if not millions of tons" of dead carp.

Now, Imagine this time x5. And times that by 5.

Ladybug Blog

Heya. I'm going to be talking about those favorite critters, lady bugs. They look amazing, they help farmers, and finding one with 9 spots is considered lucky. But what are these creatures? Are they all the same species?

Ladybugs are also called lady beetles or, in Europe, ladybird beetles. There are about 5,000 different species of these insects, and not all of them have the same meals. Some eat the plants over the plant eaters, and these creatures can be dangerous to crops.

Ladybugs appear as half-spheres, tiny, spotted, round or oval-shaped domes. They have short legs and antennae. They have different amount of spots depending on the species. However, the ladybug's colors are used for a much better purpose then looking good to us humans.

Their distinctive spots and attractive colors are meant to make them unappealing to predators. Ladybugs can secrete a fluid from joints in their legs which gives them a horrible taste. They also will play 'dead' in order to escape predators.

10 materials of the FUTURE!

Heya, and it's me! Today I'll be talking about 10 separate materials that look like they come from the future...

1. An outcome of merging information and materiality, digital-physical interfaces represent the immediacy of real-time interaction in the physical world. These items are individual blocks powered by tiny motors that are triggered by motion. Not only do they look cool when you wave your hand over them, they also withstand earthquakes much better because they move with the motion.
2. Joining woven textiles, biocomposites are now made using a variety of methods and materials, including fungus and agricultural waste. These materials let you make chairs, tables, houses, and more, they also are very good for the environment. These suggest a future for consumer products made of organic materials that safely biodegrade at the end of their usable lives.
3. The next phase of woven fabrics offers mechanical capabilities similar to those of high-performance composites. These textiles are made out of solo strains of organic material including paper, wool, and cotton, as well as carbon fiber and metal cable. The resulting multidimensional weaves—honeycomb, zero-to-90 degree, and zigzag—each respond to impact differently, and their applications range from shoe soles to medical implants. The development shows how soft composites can be made from biocompatible materials, replacing traditional petroleum-derived rigid alternatives.
4.  An alternative to conventionally rigid electronics, flexible processors called soft machines spell the future for powering sensing skins and wearable technology. These items stretch for a long time without snapping, and can be molded into any shape. These items are hoped to evolve into a new way to create arms and legs.
5. By emulating the restorative capacity of human skin, self-healing materials offer a novel method for resilience in the built environment. Most self-repairing materials are polymer-based, yet such technology may now be found in concrete and mineral-based composites. There is already self healing asphalt, and there are plenty of materials that offer them selfs up for testing.

((http://www.architectmagazine.com/technology/architectural-materials-to-watch-in-2015_o))

1. Solar Activated Façade, a cladding system that combines wood louvers and back-vented glazing. From my current perch in sub-zero Minneapolis, the façade’s heat-sink functionality is particularly appealing. It is very good for keeping heat in, but fancy looking! The product will be introduced to the U.S. in the first quarter of 2016.
2.  Man Made Spider Silk. Yes, the spider silk that is stronger then steel is being made into cables as you read this. These will become stronger then iron cables and be able to hold more stress. It also is extremely hard. In fact, they are thinking of replacing the cables on the Golden Gate Bridge with these.
3. The world's first 3D-printed bridge, the highly anticipated steel structure will be built using the Netherlands–based MX3D's multi-axis metal-printing technology. This process is driven by industrial robots fitted with welding machines that can print lines of various metals in mid-air, starting from an anchored surface—similar to drawing a structure in space—by incrementally fusing molten metal in short lengths and allowing it to cool.
4. The viability of three types of self-healing concrete: one with shape-memory polymers activated by electrical current, one with healing agents made from organic and inorganic compounds, and one with capsules containing bacteria and healing agents. These can be medium-ly damaged and can heal.
5. Finally, research continues to bring us closer to tomorrow's plastic. Scientists at Harvard University's Wyss Institute for Biologically Inspired Engineering have developed a new bioplastic made from discarded shrimp shells. Using the remarkably tough yet flexible natural chitin, or insect cuticle, Wyss founding director Don Ingber and postdoctoral fellow Javier Fernandez have created thin films with the same structure and composition as chitin. This plastic is very strong and flexible.

((http://www.architectmagazine.com/technology/five-cutting-edge-architectural-materials-to-watch-in-2016_o))

And that's all! Keep a eye open for these materials!