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Hmmm; sure hope others catch up soon.


China has launched a satellite that it claims has teleportation-like quantum communication capabilities.

While humanity may be a long way from “beaming” humans aboard a starship, scientists have made major strides in teleporting information. In March, German physicists made major advances in “quantum teleportation,” transmitting data across physical distance without a time delay.

Robot Ball exhibition

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A new spin on DNA in space.


A new crowdfunding project could see humanity immortalized in space. Voices of Humanity, has one key goal and that is to help everyone on planet Earth to engage directly in space exploration.

The Voices of Humanity project is led by Professor Philip Lubin from Orlando University has developed the idea in the hope it will help them to develop a first generation laser-driven small spacecraft as part of NASA’s program to explore interstellar flight.

“We wanted to carry part of humanity on these spacecraft,” Professor Lubin told Sputnik.

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NASA, in partnership with Space Center Houston, the Official Visitor Center of NASA Johnson Space Center, and NineSigma, a global innovation consultant organization, has opened registration for a new competition — the Space Robotics Challenge. This event seeks to develop the capabilities of humanoid robots to help astronauts on the journey to Mars.

The Space Robotics Challenge is a $1 million prize competition designed to push the boundaries of robotic dexterity. Teams must program a virtual robot, modeled after NASA’s Robonaut 5 (R5) robot, to complete a series of tasks in a simulation that includes periods of latency to represent communications delay from Earth to Mars.

Though some dexterity has been developed for Earth-based robotics systems using hydraulics, such robots cannot be used in space because of the below-freezing temperatures and the harsh environment of planetary surfaces. The R5 uses elastics technology instead of hydraulics – an innovative way of addressing the problems of operating in space. This technology could also benefit humankind on Earth, as they could operate under dangerous or extreme environments on our home planet.

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Scientists have just found a way to make use of plasma, the fourth state of matter, to improve bone development. Using cold fusion, researchers were able to initiate increased bone growth.

It is a bit ironic that plasma is the least known state of matter, when in fact it is the most abundant in the universe. It is found in our Sun and all other stars, lightning, in our TVs, fluorescent light, and neon signs, and (purportedly) even in our favorite fictional weapon in the Star Wars universe, the lightsaber.

Plasma can be classified according to the degree of ionization, temperature, etc, but whatever form it may take, plasma has been used in various fields, such as in spacecraft propulsion, agriculture, and quite recently, in medicine.

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Next to the medical field, as we follow the significant impacts 3D printing is making on the world, that of aerospace is right at the top of the list. While some are still confused about the actual importance of 3D printing as it hasn’t really affected them personally yet, it’s important to think on a much bigger scale. And there’s not much of a bigger scale than space.

For those who are cynical about the technology, pointing back to the continual supply of keychains and figurines (we all have to start somewhere, thank you!) being pumped out in plastic at the desktop, when you take a look at how long NASA has been involved with additive manufacturing—and how many parts they are using now—well, that’s impressive. Not only that, because of numerous 3D printed parts, larger components are being made that would not have been possible previously, and certainly not with such a level of customization, speed, and affordability.

download (15)We learn more about NASA and their plans continually, allowing for an education not only in the importance of 3D printed parts today, but also quite simply in how space travel is considered and what the future holds. It’s pretty darned exciting, as you are probably aware. And technology such as 3D printing has been playing a well-publicized part in everything from space suits for travel to Mars to 3D printed rocket engines. And when you couple the space technology excitement from NASA with the latest from Aerojet Rocketdyne, the details start to get intense.

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At 1.40am this morning, China launched a new Space Race with the world’s first quantum satellite, recently named Micius after an ancient Chinese philosopher and engineer, who, more than 2,400 years ago, proposed that light always travelled in a straight line and that the physical world was made up by particles. Quantum teleportation technology would be able to eliminate the 20-minute time delay in communication between earth and Mars and would allow tiny spacecraft to send back images and videos of planets many light years away without the need to carry a huge antenna. It could even give us a glimpse of what’s inside a black hole.

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The one thing still holding us back from interstellar travel is our slow spacecraft and researcher are working on solving this. With our present technology, it will take around five months to reach Mars. But NASA scientist Philip Lubin is working on a system where lasers propel spaceship with massive sails to the Red Planet in only a time period of three days.

Pretty much like Bill Nye’s much-hyped solar sail, this ‘photonic propulsion’ system count on on the momentum of photons to move forward. But as an alternative of photons from the Sun’s rays, Lubin’s system would use a push by huge Earth-based lasers.

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Last month, NASA announced the winner of its 3D Printed Habitat Challenge, a competition in which entrants were tasked to develop architectural concepts. These concepts were to implement 3D printing techniques for the construction of habitats on Mars, using materials that could be sourced from the Red Planet itself.

The 3D Printed Habitat Challenge received 165 submissions, with the thirty highest scoring entries being displayed at the New York Maker Faire on September 27th. The overall winner and recipient of the $25,000 grand prize was Team Space Exploration Architecture and Clouds Architecture Office with their Mars Ice House design. The runners up were Team Gamma, who received $15,000, whilst third place was awarded to Team LavaHive.

“The creativity and depth of the designs we’ve seen have impressed us,” said Centennial Challenges Program Manager Monsi Roman. “These teams were not only imaginative and artistic with their entries, but they also really took into account the life-dependent functionality our future space explorers will need in an off-Earth habitat.”

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