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Oct 2, 2019

Making the rules in space: When does careful become crushing?

Posted by in categories: engineering, government, space travel

Other approaches to space involve moving some or all the engineering activities out of government into the private sector, in the hopes that the private sector will be able to produce otherwise unavailable efficiencies. This sounds good in practice, but we must recognize that shifting some management responsibilities does not alleviate the government responsibility to regulate and look out after the public good.

But imprudent regulation impairs private sector efforts, simply because they may have a harder time getting relief from government rules than, let’s say, the DoD might. Unnecessarily stringent rules, requirements, and regulations discourage success. The precautionary principle has its appeal, but when the underlying activity itself is relatively new and uncertain, precautionary restrictions quickly turn into outright prohibition. Any arbitrary prohibition limits the diversity of our national spaceflight portfolio.

It may seem that this or that actor might benefit from favoritism, permissive oversight, or other unfair advantages. But while everybody trying to do something new in space benefits from distinct benefits and advantages, they also face unique obstacles and difficulties.

Oct 2, 2019

DNA Nanomachines Are Opening Medicine to the World of Physics

Posted by in categories: biotech/medical, chemistry, nanotechnology, robotics/AI

When I imagine the inner workings of a robot, I think hard, cold mechanics running on physics: shafts, wheels, gears. Human bodies, in contrast, are more of a contained molecular soup operating on the principles of biochemistry.

Yet similar to robots, our cells are also attuned to mechanical forces—just at a much smaller scale. Tiny pushes and pulls, for example, can urge stem cells to continue dividing, or nudge them into maturity to replace broken tissues. Chemistry isn’t king when it comes to governing our bodies; physical forces are similarly powerful. The problem is how to tap into them.

In a new perspectives article in Science, Dr. Khalid Salaita and graduate student Aaron Blanchard from Emory University in Atlanta point to DNA as the solution. The team painted a futuristic picture of DNA mechanotechnology, in which we use DNA machines to control our biology. Rather than a toxic chemotherapy drip, for example, a cancer patient may one day be injected with DNA nanodevices that help their immune cells better grab onto—and snuff out—cancerous ones.

Oct 2, 2019

The U.S. Air Force Plans to ‘Grow’ Runways with Bacteria

Posted by in category: military

Project Medusa plans to use biomanufacturing to grow military-grade runways using nothing more than dirt and microorganisms.

Oct 2, 2019

When — or if — NASA finds life on Mars, the world may not be ready for the discovery, the agency chief says

Posted by in category: alien life

NASA’s next mission to Mars will be its most advanced yet. But if scientists discover there was once life — or there is life — on the Red Planet, will the public be able to handle such an extraterrestrial concept?

NASA chief scientist Jim Green doesn’t think so.

“It will be revolutionary,” Green told the Telegraph. “It will start a whole new line of thinking. I don’t think we’re prepared for the results. We’re not.”

Oct 2, 2019

Atom-by-atom experiments at the edge of the periodic table

Posted by in categories: chemistry, particle physics

Investigating the heaviest elements known is rewriting our knowledge of chemistry and may even mean the end of the periodic table itself, writes Kit Chapman.

In 2018, Peter Schwerdtfeger published a paper that turned chemistry on its head. According to calculations he and his colleagues performed, oganesson – element 118, the heaviest known – was not a noble gas as you would expect from its position in the periodic table, but a highly reactive solid. Even stranger, it didn’t seem to have electron shells.1

‘Well, that statement is oversimplified,’ says Schwerdtfeger, a theoretical chemist at Massey University in New Zealand. ‘You can still build up the electron densities from orbitals describing individual shells. What happens is that for oganesson the shell structure is barely visible, approaching an electron gas.’

Oct 2, 2019

Squid-inspired robots might have environmental, propulsion applications

Posted by in categories: military, physics, robotics/AI

Inspired by the unique and efficient swimming strategy of cephalopods, scientists developed an aquatic robot that mimics their form of propulsion.

These , squidlike robots are made of , which make them hard to detect—an advantage that has potential military reconnaissance and scientific applications—while maintaining a low environmental footprint.

Physicists Xiaobo Bi and Qiang Zhu used to illustrate the physical mechanisms and fluid mechanics of a squid’s swimming method, which uses intermittent bursts through pulsed jet propulsion. By using this form of locomotion, the new can achieve impressive speeds, just like its animal inspiration. Bi and Zhu discuss their work in this week’s Physics of Fluids.

Oct 2, 2019

Mars Is Heaven!

Posted by in categories: solar power, space, sustainability

You probably hear a lot of news from NASA’s many amazing Mars missions: the Curiosity rover, InSight, MRO, and more. NASA is good at promoting their stuff of course, but also the images returned from all these missions are truly wonderful.

You may not hear as much from the European Space Agency’s Mars Express mission. Well, you may have heard about the lander Beagle 2: It set down safely on the surface, but two of the four solar panels didn’t deploy, dooming that part of that mission.

Oct 2, 2019

Chemists synthesize perseanol for the first time

Posted by in categories: food, sustainability

A team of chemists at California Institute of Technology has totally synthesized perseanol using a 16-step process for the first time. In their paper published in the journal Nature, the group describes their process and how well it worked.

In nature, perseanol is a molecule produced by the persea tree. Shortly after its discovery in the , researchers found that the molecule was similar to ryanodine, a once-popular pesticide. They have similar architecture, though perseanol lacks a pyrrole-2-carboxylate ester. Because of the similarities, interest in using perseanol on commercial crops grew. Not much later, a cheaper alternative was found, and the molecule never made it to the farm. But interest in it persists because of its ecofriendly reputation. For that reason, chemists have been working to produce it in the lab—if successful, the results would be both cheaper and more environmentally friendly than products now in use.

The researchers note that ryanodine works as a pesticide by binding to in insects’ muscles, paralyzing them. It can paralyze animals, too, but perseanol is believed to be more specific to insects, making it a potentially safer pesticide. The researchers also note that little research has been performed to determine the means by which perseanol kills bugs. That could change however, if interest in using perseanol as a pesticide is rekindled.

Oct 2, 2019

Elon Musk unveils SpaceX Starship which will bring new age of space tourism in SIX months

Posted by in categories: Elon Musk, space travel

ELON Musk and his SpaceX team want to get its new rocket, which will one day ferry humans to the Moon, Mars and “beyond” into orbit within just six months.

Oct 2, 2019

New Drones, Weapons Get Spotlight in China’s Military Parade

Posted by in categories: drones, military

The massive event celebrated 70 years of Communist rule — and an arsenal for its next decade.

China’s newest weapons were on display Tuesday at the massive military parade staged in Beijing to mark the 70th anniversary of Communist rule. China watchers noticed a new emphasis on airborne and naval drones and the public unveiling of a new hypersonic missile and a new ICBM.

The parade offered the first clear look at the supersonic DR −8 spy drone, which “would be expected to play a key role should there be a conflict with US aircraft carrier strike groups in the South China Sea or Western Pacific,” wrote the South China Morning Post.