Page 11044
Jun 19, 2016
Long March 7 rocket will revolutionize China’s manned space program
Posted by Andreas Matt in category: space
The Long March 7 is a Chinese kerosene fueled carrier rocket, which is being developed by the China Aerospace Science and Technology Corporation. Its maiden flight is scheduled for 26 June 2016.
The Long March 7 is the medium-lift variant of a new generation rocket family that includes the heavier-lift Long March 5 and the small-mid cargo Long March 6. The structure will be based on the reliable, man-rated Long March 2F rocket. It will inherit the 3.35m-diameter core stage and 2.25m-diameter liquid rocket boosters.
China will also be switching from russian Soyuz style capsules to something like the American Apollo capsules.
Continue reading “Long March 7 rocket will revolutionize China’s manned space program” »
Jun 19, 2016
China is in preliminary talks with Ukraine to finish the second Antonov 225 cargo plane
Posted by Andreas Matt in category: space travel
China is in talks with the Ukraine to finish a half built second copy of the Antonov cargo plane. It would likely cost about $300 million to complete the plane.
The Antonov An-225 Mriya is a strategic airlift cargo aircraft that was designed by the Soviet Union’s Antonov Design Bureau in the 1980s. It is powered by six turbofan engines and is the longest and heaviest airplane ever built, with a maximum takeoff weight of 640 tonnes (710 short tons). The Antonov An-225, initially developed for the task of transporting the Buran spaceplane, was an enlargement of the successful Antonov An-124. The first and only An-225 was completed in 1988.
Jun 18, 2016
City on Mars: A Mars City Design Workshop
Posted by Klaus Baldauf in categories: space travel, sustainability
Join this workshop where esteemed speakers and selected teams will guide us in building a sustainable city on Mars.
Jun 18, 2016
First Human Test of CRISPR Proposed
Posted by Dan Kummer in categories: bioengineering, biotech/medical
Jun 18, 2016
How Syfy is Leading The Charge With Imagining Diverse Futures
Posted by Sean Brazell in category: futurism
Over the last couple of seasons of television, critics and audiences have begun to pay a considerable amount of attention to the role of women and racial diversity on their favorite shows. Despite being set in the future, science fiction television has often been stubbornly stuck in the past. With its latest lineup, however, the Syfy channel has demonstrated that a proactive approach can create lasting change.
While visiting the sets of Dark Matter and Killjoys, I spent some time chatting with a fellow journalist, where we began to talk about how the channel’s new slate of shows had demonstrated some considerable changes in the science fiction world: across The Expanse, Dark Matter, Killjoys and 12 Monkeys, women and people of color were cast in lead or in prominent roles, with particular attention being paid to underprivileged groups in many instances. Recently, spoke with the showrunners of each production about their approach to envisioning their respective futures.
Jun 18, 2016
Light and matter mixed in a golden nanopore room temperature plasmonic nanocavity traps
Posted by Karen Hurst in category: particle physics
Light and matter are usually separate and have distinct properties. However, molecules of matter can emit particles of light called photons. Normally, emitted photons leave the molecule and the two do not mix again.
Now, scientists have trapped a single molecule in such a tiny space that when it emits a photon, the photon cannot escape. This produces an oscillation of energy between the molecule and the photon, creating a mixing of the properties of matter and light.
Jun 18, 2016
Ultrafast dynamics of semiconductor nanocrystals
Posted by Karen Hurst in categories: economics, energy, finance, quantum physics
Spectroscopy studies of charge transfer from cadmium selenide quantum dots to molecular nickel catalysts reveal unexpectedly fast electron transfer, enabling exceptional photocatalytic hydrogen production.
A key challenge facing the US is the harvesting, production, storage, and distribution of energy to support economic prosperity with responsible environmental management. Currently, fossil fuels provide more than 80% of the energy consumed in the US (even when significant increases in the use of alternative sources of energy in recent years are accounted for).1 For the US Department of Defense in particular, volatility in the price and availability of fossil fuels leads to significant short- and long-term financial, operational, and strategic risks.2 There is, therefore, clearly a need for new alternative sources of energy.
Continue reading “Ultrafast dynamics of semiconductor nanocrystals” »
I find this article extremely laughable. Of course, humans do not know everything around science why we do research, incubate, and evolve future technologies as well as continue to do innovation and discovery.
What We Cannot Know. By Marcus du Sautoy. 4th Estate; 440 pages; £20. To be published in America by Viking Penguin in April 2017.
“EVERYONE by nature desires to know,” wrote Aristotle more than 2,000 years ago. But are there limits to what human beings can know? This is the question that Marcus du Sautoy, the British mathematician who succeeeded Richard Dawkins as the Simonyi professor for the public understanding of science at Oxford University, explores in “What We Cannot Know”, his fascinating book on the limits of scientific knowledge.
Jun 18, 2016
Google’s quantum computer inches nearer after landmark performance breakthrough
Posted by Karen Hurst in categories: computing, government, nanotechnology, particle physics, quantum physics, space
Over 20 years ago, I was interviewed by a group that asked me about the future of technology. I told them due to advancements such as nanotechnology that technology will definitely go beyond laptops, networks, servers, etc.; that we would see even the threads/ fibers in our clothing be digitized. I was then given a look by the interviewers that I must have walked of the planet Mars. However, I was proven correct. And, in the recent 10 years, again I informed others how and where Quantum would change our lives forever. Again, same looks and comments.
And, lately folks have been coming out with articles that they have spoken with or interviewed QC experts. And, they in many cases added their own commentary and cherry picked people comments to discredit the efforts of Google, D-Wave, UNSW, MIT, etc. which is very misleading and negatively impacts QC efforts. When I come across such articles, I often share where and why the authors have misinformed their readers as well as negatively impacted efforts and set folks up for failure who should be trying to plan for QC in their longer term future state strategy so that they can plan for budgets, people can be brought up to date in their understanding of QC because once QC goes live on a larger scale, companies and governments will not have time to catch up because once hackers (foreign government hackers, etc.) have this technology and you’re not QC enabled then you are exposed, and your customers are exposed. The QC revolution will be costly and digital transformation in general across a large company takes years to complete so best to plan and prepare early this time for QC because it is not the same as implementing a new cloud, or ERP, or a new data center, or rationalizing a silo enterprise environment.
The recent misguided view is that we’re 30 or 50 years away from a scalable quantum chip; and that is definitely incorrect. UNSW has proven scalable QC is achievable and Google has been working on making a scalable QC chip. And, lately RMIT researchers have shared with us how they have proven method to be able to trace particles in the deepest layers of entanglement which means that we now can build QC without the need of analog technology and take full advantage of quantum properties in QC which has not been the case.
Continue reading “Google’s quantum computer inches nearer after landmark performance breakthrough” »