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By Jordan England-Nelson, Los Angeles Daily News
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The long-awaited presentation by Elon Musk, SpaceX’s billionaire CEO and founder of Tesla Motors, showcased the 12-year-old company’s engineering prowess with the flair of an Apple product release party.

Starry-eyed engineers cheered and flashed their smartphone cameras inside SpaceX’s Hawthorne factory as Musk took the stage in a crushed velvet blazer and a boy-band mic strapped to his ear.

After a 10-second countdown, a curtain dropped behind Musk to reveal the gumdrop-shaped Dragon V2, a seven-passenger capsule that could begin shuttling astronauts to the ISS as early as 2017.

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logo for the symposium transparent b100 Year Starship announces a Call for Papers for the 100YSS 2014 Public Symposium. The Symposium will be held September 18–21 at the George R. Brown Convention Center in Houston, Texas, United States.

You’re invited to submit your abstract for one of the eight Technical Tracks or Poster Session and be a part of our transdisciplinary scope to include the broadest swath of ideas and people for our mission. Abstract deadline is 20 June, 2014.

The Pathway to the Stars, Footprints on Earth theme still guides the focus of 100YSS’s Public Symposium. It compels us to continue our journey and maintain our mission. Last year, our participants explored different avenues of fundamental research, technology development, societal systems, and capacities that facilitate ready access to our inner solar system. This year we move that focus forward with more in-depth access to emerging and cutting edge topics – expanding our view of design, creating new pathways in education, discovering psychology, and cutting edge transportation methods. Using a collaborative and Transdisciplinary approach to capability and capacity building, our mission will continue to support our efforts to enhance life here on earth…today. Join us as we log another year in our 100-year mission at the 100YSS 2014 Public Symposium.

Below are the tracks for our 2014 Call For Papers.

Propulsion and Energy

How fast and how far can we travel? Fundamental breakthroughs in propulsion and energy are required for interstellar travel to be feasible. To overcome the formidable time-distance barrier for travel between stars, robust leaps in theory and engineering for energy production, control and storage must occur, as well as the advancement and demonstration of propulsion techniques.

Data, Communications and Information Technology

Sending and receiving information by interstellar travelers or robotic vehicles requires development new methods to traverse the vast emptiness between stars. Additionally, in the absence of routine and timely communication with Earth, a probe or traveler must be self-sufficient in gathering, generating, compiling, storing, analyzing and retrieving data while ensuring these systems are operational over the lifetime of the mission and beyond.

Designing for Interstellar

Design for interstellar probes and crewed vehicles must address the unique characteristics and extreme environment of interstellar space. The equipment, structures, tools, materials, buildings, furniture, cleaning and maintenance processes, clothing—the accouterments of life and work— surround and create an environment. This environment protects, nourishes and facilitates daily activities. For most living things, their environment must fulfill many physical needs and for higher order creatures, physical, mental and emotional requirements need be met as well. Understanding, optimizing and manufacturing design to make these aspects of daily activities sustainable are critical for any hope of successful interstellar flight—with a living crew or robotic probes.

“Uncharted” Space and Destinations

Understanding the interstellar medium and the composition of exosolar systems is vital as we contemplate travel to the stars. In addition, as our gaze is drawn many light years away, focusing on closer objectives as stepping stones to deep space will be essential. Beyond Mars, what missions should be designed to eventuate successful travel to another star? How should potential destinations be evaluated? What do we know and how do we learn more about space between the stars?

Interstellar Education

The journey beyond our solar system will overwhelm current educational practices. Commonly held beliefs and understandings of “learning” must and will be challenged. It is probable that humans have huge untapped capacities. Innovative learning tools and educational structures are needed for syntheses of ever-increasing information. The interstellar education platform will drive new knowledge of the universe and the development of the workforce that can create all that will be needed for interstellar travel. What are these new educational paradigms? What is education’s role—formal and informal—in producing interstellar citizens?

Life Sciences in Space Exploration

As ”Earth-evolved” humans, plants and other life forms travel deeper in space, we must understand much more about the fundamentals of life mechanisms. We must prepare for radical shifts in nutrition, potential therapeutics, growth and development, physiology and ethics. Concurrently, as we search for life beyond the earth we may need to re-evaluate our perspective of what is defined as “life”. Also, how might we use the interstellar environment itself for life science research?

Becoming an Interstellar Civilization

Are humans driven to search beyond our knowledge base? How and in response to what do we create the belief systems that guide us? Interstellar travel is not just about the physical trip, but must include the journey civilizations take together. Who will we be and what will define our societies, morality, ethics, cultures, laws, economies, relationships and identities?

Interstellar Innovations Enhancing Life on Earth

Technology progresses in small increments and by leaps and bounds. Often the biggest steps forward are through the invention and innovation required to meet grand challenges. Interstellar travel represents such a challenge that may spur new economies, combat climate change, address heretofore incurable diseases. This session asks “What are these innovations and how can we deploy these to enhance life here on Earth?”

Poster Sessions

Great ideas arise through unique individual observations, from people of all ages and educational backgrounds. The Poster Sessions are an opportunity to present snapshots of these early concepts and experiments. Poster sessions are a great forum to communicate any commercial opportunities in space or here on earth and seek like-minded collaborators or investors. Presentation in the poster format allows in-depth discussion in a small group setting. Topics are open.

SUBMISSION GUIDELINES

Submissions can be perspectives on the central dogma, experimental results, and review of a specific topic. You must ensure that it fits the track topic to which you are submitting. Individual presentations will only be presented in one track. Individuals do not have to be associated with an institution to submit an abstract. Please note that materials should be non-commercial in content, any commercial presentation that communicates a service, technology or product can be submitted to our poster session.

Submissions will be reviewed based on bona fide field of inquiry/thought/research that derive from validated in patents, literature, mathematics or practice. The data submitted should represent one or more of the following:

  • Actual data or background search generated presents a challenge to current dogma or asks a significant question
  • Data moves the field forward or clarifies some aspect of the field
  • Solves a problem acknowledged in the field
  • Provides a novel, well supported integration and/or review of field and proposes specific concept

Submitted abstracts are well written, 300 word, concise and includes a statement of the following items. If actual data, results and conclusions are not available, please provide a well though out plan for how the information will be generated.

  • Background
  • Problem and hypothesis
  • Experimental design (or literature review)
  • Data
  • Results
  • Conclusions and Discussion

For Social Science submissions, (e.g. Interstellar Education and Becoming an Interstellar Civilization Tracks), the following guidelines apply for the abstract, presentation and paper submissions. The submissions should:

  • Articulate the issue or research question to be discussed,
  • Indicate the methodological or critical framework used, and
  • Indicate the findings or conclusions to be presented and/or the relevance to wider conference themes.

Presentations and papers can present any kind of research or analysis, but it should be written so that the importance of the work can be understood by reviewers working in different disciplines or using different approaches. Cross- or trans-discipline work is especially encouraged.

100YSS Poster Submissions

In order to provide a broader audience the opportunity to present their ideas, there will be on option to present a poster for your submission. All authors are welcome to present in the Poster session. Individuals can submit for poster session only. A Track Chair may also select submissions for a poster presentation. Individuals or companies advertising a service, technology or product can submit for poster only presentations. If you are a commercial entity, the poster session may be the perfect opportunity to present you idea. Each poster must fit into the 100YSS mission and provide a valid line of inquiry. The final submission should be 4ft x 4ft or 122 cm x 122 cm.

2014 Call for Papers Timeline

  • Call for papers opens: 11 April
  • Abstracts due: 20 June
  • Notification of acceptance: 15 July
  • If accepted, Presentations and Posters Due: 10 September

The 100YSS Style Guide for Papers will be provided to presenters on acceptance of abstract.

To submit your abstract, visit: http://100yss.org/symposium/2014/

Please note that you will be asked to create an account to submit your abstract. Registration for the symposium itself is coming soon.

Jesus Diaz — SPLOID

At last we got to see the full trailer for Chris Nolan’s Insterstellar. The drama seems centered around a worldwide food crisis fired by climate change and resource depletion—a quite probable future. The space travel part seems equally plausible, showing what may be the first realistic depiction of a real warp drive.

Of course, warp drives are not real. Yet (hopefully?) But physicist have theorized about it and NASA has a small group of people working on them. I’m firmly in the camp of “if we can imagine it, we can build it.” But we will get to that later. Watch the trailer first:

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Kurzweil Accelerating Intelligence

Some SETI (search for extraterrestrial intelligence) scientists are considering “Active SETI” to detect possible extraterrestrial civilizations.

Psychologist Gabriel G. de la Torre, professor at the University of Cádiz (Spain) questions this idea, based on results* from a survey taken by students, which revealed a general level of ignorance about the cosmos and the influence of religion on these matters.

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Written By: Jason Dorrier — Singularity Hub

Electroluminescent wiring and patches form the suit’s flashiest components—recalling the visual effects of suits worn in Tron, if not the fit. NASA says such lighted features might serve to more easily identify crew members.

NASA may have decommissioned the Space Shuttle, but it’s not the end of space exploration for the iconic agency which wants to send humans back to the Moon and on to Mars within the next few decades. And they’ll need something to wear up there—something tailored for the next generation of space travel.

The agency first introduced its Z-series prototype spacesuits back in 2012.

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Based on the Bloomberg TV program “The Next Space Race” and other reliable sources, I determine the realistic payload costs goals for the next generation of private space companies.

I review NASA’s Space Shuttle Program costs and compare these with SpaceX costs, and then extrapolate to Planetary Resources, Inc.‘s cost structure.

Three important conclusions are derived. And for those viewing this video at my blog postings, the link to the Excel Spreadsheet is here (.xlsx file).

Yesterday’s program, The Next Space Race, on Bloomberg TV was an excellent introduction to the commercial aerospace companies, SpaceX, the Sierra Nevada Company (SNC), and Boeing. The following are important points, at the stated times, in the program:

0.33 mins: The cost of space travel has clipped our wings.
5:18 mins: How many people knew Google before they started?
7:40 mins: SpaceX costs, full compliment, 4x per year at $20 million per astronaut.
11:59 mins: Noisy rocket launch, notice also the length of the hot exhaust is several times the length of the rocket.
12:31 mins: One small step for man, one giant leap for mankind.
12:37 mins: Noisy shuttle launch, notice also the length of the hot exhaust is several times the length of the rocket.
13:47 mins: OPF-3, at one time the largest building in the world at 129 million cubic feet.
16:04 mins: States are luring private companies to start up in their states.
16:32 mins: NASA should be spending its money on exploration and missions and not maintenance and operations.
17:12 mins: The fair market value of OPF-3 is about $13.5 million.
17:19 mins: Maintenance cost is $100,000 per month
17:47 mins: Why Florida?
18:55 mins: International Space Station (ISS) cost $60B and if including the Shuttle program, it cost $150B.
19:17 mins: The size of the commercial space launch business.
21:04 mins: Elon Musk has put $100 million of his own money into SpaceX.
21:23 mins: The goals of NASA and private space do not conflict.

Summary:
1. Cost of ISS is $60B, total cost including the Shuttle program is $150B.

2. SpaceX cost is $20M per astronaut (for 7 astronauts) or a launch cost of $140 million per launch at $560 million per year for 4 launches per year.

3. The next space race is about money.

4. NASA will give a multi billion dollar contract to private space companies to ferry humans & cargo into space and back.

5. Orbiter Processing Facility 3 (OPF-3) valued at $13.5million, and an estimated area of 207,000 sq ft gives a value of $65.22/sq ft.

6. With a maintenance costs of $100,000 gives a per sq ft maintenance costs of $0.48/sq ft/month or $5.80/sq ft/year.

7. Another reason for the Cape Canaveral NASA launch site is the mandatory no/low population down range for rocket launches. At Cape Canaveral this down range is the Atlantic Ocean.

In April 2012 I met Lisa Randall while book signing at the National Space Symposium, held every April at the Broadmoor Hotel, Colorado Springs, Colorado. She is the Frank B. Baird, Jr., Professor of Science at Harvard University.

She autograph my copy of her book “Warped Passages” and I showed her the proof copy of my book “An Introduction to Gravity Modification, 2nd Edition” with the g=tau.c^2 massless formula for gravitational acceleration, solving the gravity modification physics.

More in the video …

The future propulsion community are those who believe in or are actively researching rocketry, gravity modification & interstellar propulsion engineering & physics.

In this video I discuss the 3 groups within the future propulsion community. These groups are the Nay Sayers — they don’t believe that it is in the near future, Advanced Rocket — that only rockets can do this, & New Physics — that a new physics will solve this soon.

I also discuss briefly the European/French and Chinese interest in my work.

I am so glad to have the new video for my Kick Starter project, Ground Zero of Interstellar Propulsion and covers briefly Gravity Modification aka Anti-Gravity, Interstellar Propulsion, UFOs, Laithwaite, Crisis In Physics