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From WIRED.com:

The revelation last week that China had slammed a medium-range ballistic missile into one of its aging satellites on January 11 and littered space with junk fragments has created its own form of political debris in Washington, D.C.

The test, which the United States military had long anticipated, has touched off debate over how the U.S. government should interpret and respond to China’s actions.

“It’s a very provocative act,” said Gregory Kulacki, a senior analyst and China expert with the Union of Concerned Scientists. However, “policy makers should respond on the basis of accurate information, not military rhetoric and propaganda.”

For advocates of a more aggressive American posture in space, the anti-satellite test — the first since the United States conducted one in 1985 — confirms long-held suspicions about China’s military ambition in space, and justifies the need for increased spending on space-based weapons programs that recall the star-wars aspirations of the Reagan presidency.

“I hope the Chinese test will be a wake up call to people,” said Hank Cooper, a former director of the Strategic Defense Initiative (SDI) program and the chairman of High Frontier, a missile defense advocacy group. “I’d like to see us begin a serious anti-satellite program. We’ve been leaning on the administration. This argument to prevent weaponization of space is really silly.”

Continue reading “Space Arms Race, Here we Come!” | >

From the Unemumerated blog, this piece was originally written in 1993:

Using materials native to space, instead of hauling everything from Earth, is crucial to future efforts at large-scale space industrialization and colonization. At that time we will be using technologies far in advance of today’s, but even now we can see the technology developing for use here on earth.

There are a myriad of materials we would like to process, including dirty organic-laden ice on comets and some asteroids, subsurface ice and the atmosphere of Mars, platinum-rich unoxidized nickel-iron metal regoliths on asteroids, etc. There are an even wider array of materials we would like to make. The first and most important is propellant, but eventually we want a wide array of manufacturing and construction inputs, including complex polymers like Kevlar and graphite epoxies for strong tethers.

The advantages of native propellant can be seen in two recent mission proposals. In several Mars mission proposals[1], H2 from Earth or Martian water is chemically processed with CO2 from the Martian atmosphere, making CH4 and O2 propellants for operations on Mars and the return trip to Earth. Even bringing H2 from Earth, this scheme can reduce the propellant mass to be launched from Earth by over 75%. Similarly, I have described a system that converts cometary or asteroidal ice into a cylindrical, zero-tank-mass thermal rocket. This can be used to transport large interplanetary payloads, including the valuable organic and volatile ices themselves into high Earth and Martian orbits.

Earthside chemical plants are usually far too heavy to launch on rockets into deep space. An important benchmarks for plants in space is the thruput mass/equipment mass, or mass thruput ratio (MTR). At first glance, it would seem that almost any system with MTR>1 would be worthwhile, but in real projects risk must be reduced through redundancy, time cost of money must be accounted for, equipment launched from earth must be affordable in the first place (typically

Continue reading “Nick Szabo’s Chemical Microreactors” | >

The New Scientist also has an article about how exploding robots could be sent to determine the composition of Near Earth Asteroids. This would be relevant in developing a proper Asteroid shield. A current project is the Lifeboat AsteroidShield

An illustration from Ball Aerospace and New Scientist.

The Ball Aerospace proposal of many small probes seems cost efficient and worthy of being advocated by the Lifeboat Foundation.

The New Scientist discusses a recent study that advocates using of an ion beam generator on the moon to allow the use of far smaller rockets to move from the moon to other locations in space. The ion beam generator would need several hundred megawatts of electrical power from either a large solar cell array or nuclear power.

I have discussed the need on my website to make gigawatts of power on the moon and in orbit in order to begin serious development and colonization efforts.

An alternative to ion beams would be magbeam, a plasma based approach for accelerating spaceships

The Lifeboat Foundation supports space habitats and Asteroid shields

Continue reading “Prospects for Lifeboat space habitat colonies” | >

There were several significant developments and announcements that were nanotechnology related.

The UK Ideas Factory Sandpit announced three ambitious, but in my opinion achievable projects in the 2–5 year timeframe.

1. A system with software based control for the assembly of DNA oligomers, nanopartices and other small molecules. This would be a significant advance over current DNA synthesis if they are successful.

2. Computer-directed actuators with sub-angstrom precisions that is based upon novel surface-bound, reconfigurable nanoscale building blocks and a prototype computer-controlled matter manipulator (akin to a nanoscale conveyor belt)

Continue reading “Significant Nanotechnology related developments” | >

On CNN:

WASHINGTON (CNN) — China last week successfully used a missile to destroy an orbiting satellite, U.S. government officials told CNN on Thursday, in a test that could undermine relations with the West and pose a threat to satellites important to the U.S. military.

According to a spokesman for the National Security Council, the ground-based, medium-range ballistic missile knocked an old Chinese weather satellite from its orbit about 537 miles above Earth. The missile carried a “kill vehicle” and destroyed the satellite by ramming it.

The test took place on January 11. (Watch why the U.S. has protested the missile strike Video)

Continue reading “Militarization of Space Looming” | >

From JTA News:

House resolution calls for Ahmadinejad genocide charges

A bipartisan slate of lawmakers in the U.S. House of Representatives proposed a resolution calling on the Iranian president to face genocide incitement charges.

The non-binding resolution brought last week to the House’s Foreign Affairs Committee and initiated by Reps. Steve Rothman (D-N.J.) and Mark Kirk (R-Ill.), says statements by President Mahmoud Ahmadinejad calling for the destruction of Israel amount to crimes according to the 1948 Convention on Genocide.

Continue reading “More on Mahmoud” | >

From United Press International:

DAYTON, Calif., Dec. 20 (UPI) — The U.S. Army awarded a $15 million contract for the development of a new type of lightweight composite armor based on nanotechnology.

The pact awarded to the University of Dayton Research Institute (UDRI) this week will lead to new materials that can be used in vehicles and body armor.

“This is not a ground-level academic study project,” UDRI engineer Brian Rice said. “We are actually working with two Ohio companies to create a product that, if it tests out well, could show up in Iraq next year.”

Armor Holdings and TPI Composites are also involved in the project, which is under the auspices of the Army Research Laboratory. Rice said Dayton would be working with the two companies specifically on an armor package for Humvees and armored vehicles.

Continue reading “U.S. developing nanotech military armor” | >

From NewsMax.com:

The keepers of the “Doomsday Clock” plan to move its hands forward next Wednesday to reflect what they call worsening nuclear and climate threats to the world.

The symbolic clock, maintained by the Bulletin of Atomic Scientists, currently is set at seven minutes to midnight, with midnight marking global catastrophe.

Continue reading “Scientists to Move Doomsday Clock Forward” | >