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The Kline Directive: Economic Viability

Posted by Benjamin T. Solomon in business, complex systems, defense, economics, education, engineering, finance, military, nuclear weapons, philosophy, physics, policy, scientific freedom, space, sustainabilityTagged , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , | 11 Comments on The Kline Directive: Economic Viability

To achieve interstellar travel, the Kline Directive instructs us to be bold, to explore what others have not, to seek what others will not, to change what others dare not. To extend the boundaries of our knowledge, to advocate new methods, techniques and research, to sponsor change not status quo, on 5 fronts:

1. Legal Standing. 2. Safety Awareness. 3. Economic Viability. 4. Theoretical-Empirical Relationship. 5. Technological Feasibility.

In this post I will explore Economic Viability. I have proposed the Interstellar Challenge Matrix (ICM) to guide us through the issues so that we can arrive at interstellar travel sooner, rather than later. Let us review the costs estimates of the various star drives just to reach the velocity of 0.1c, as detailed in previous blog posts:

Interstellar Challenge Matrix (Partial Matrix)

Propulsion Mechanism Legal? Costs Estimates
Conventional Fuel Rockets: Yes Greater than US$1.19E+14
Antimatter Propulsion: Do Not Know. Between US$1.25E+20 and US$6.25E+21
Atomic Bomb Pulse Detonation: Illegal. This technology was illegal as of 1963 per Partial Test Ban Treaty Between $2.6E12 and $25.6E12 . These are Project Orion original costs converted back to 2012 dollar. Requires anywhere between 300,000 and 30,000,000 bombs!!
Time Travel: Do Not Know. Requires Exotic Matter, therefore greater than antimatter propulsion costs of US$1.25E+20
Quantum Foam Based Propulsion: Do Not Know. Requires Exotic Matter, therefore greater than antimatter propulsion costs of US$1.25E+20
Small Black Hole Propulsion: Most Probably Illegal in the Future Using CERN to estimate. At least US$9E+9 per annual budget. CERN was founded 58 years ago in 1954. Therefore a guestimate of the total expenditure required to reach its current technological standing is US$1.4E11.

Note Atomic Bomb numbers were updated on 10/18/2012 after Robert Steinhaus commented that costs estimates “are excessively high and unrealistic”. I researched the topic and found Project Orion details the costs, of $2.6E12 to $25.6E12, which are worse than my estimates.

These costs are humongous. The Everly Brothers said it the best.

Let’s step back and ask ourselves the question, is this the tool kit we have to achieve interstellar travel? Are we serious? Is this why DARPA — the organization that funds many strange projects — said it will take more than a 100 years? Are we not interested in doing something sooner? What happened to the spirit of the Kline Directive?

From a space exploration perspective economic viability is a strange criterion. It is not physics, neither is it engineering, and until recently, the space exploration community has been government funded to the point where realistic cost accountability is nonexistent.

Don’t get me wrong. This is not about agreeing to a payment scheme and providing the services as contracted. Government contractors have learned to do that very well. It is about standing on your own two feet, on a purely technology driven commercial basis. This is not an accounting problem, and accountants and CFOs cannot solve this. They would have no idea where to start. This is a physics and engineering problem that shows up as an economic viability problem that only physicists and engineers can solve.

The physics, materials, technology and manufacturing capability has evolved so much that companies like Planetary Resources, SpaceX, Orbital Sciences Corp, Virgin Galactic, and the Ad Astra Rocket Company are changing this economic viability equation. This is the spirit of the Kline Directive, to seek out what others would not.

So I ask the question, whom among you physicist and engineers would like to be engaged is this type of endeavor?

But first, let us learn a lesson from history to figure out what it takes. Take for example DARPA funding of the Gallium Arsenide. “One of DARPA’s lesser known accomplishments, semiconductor gallium arsenide received a push from a $600-million computer research program in the mid-1980s. Although more costly than silicon, the material has become central to wireless communications chips in everything from cellphones to satellites, thanks to its high electron mobility, which lets it work at higher frequencies.”

In the 1990s Gallium Arsenide semiconductors were so expensive that “silicon wafers could be considered free”. But before you jump in and say that is where current interstellar propulsion theories are, you need to note one more important factor.

The Gallium Arsenide technology had a parallel commercially proven technology in place, the silicon semiconductor technology. None of our interstellar propulsion technology ideas have anything comparable to a commercially successful parallel technology. (I forgot conventional rockets. Really?) A guesstimate, in today’s dollars, of what it would cost to develop interstellar travel propulsion given that we already had a parallel commercially proven technology, would be $1 billion, and DARPA would be the first in line to attempt this.

Given our theoretical physics and our current technological feasibility, this cost analysis would suggest that we require about 10 major technological innovations, each building on the other, before interstellar travel becomes feasible.

That is a very big step. Almost like reaching out to eternity. No wonder Prof Adam Franks in his July 24, 2012 New York Times Op-Ed, Alone in the Void, wrote “Short of a scientific miracle of the kind that has never occurred, our future history for millenniums will be played out on Earth”.

Therefore, we need to communicate to the theoretical physics community that they need get off the Theory of Everything locomotive and refocus on propulsion physics. In a later blog posting I will complete the Interstellar Challenge Matrix (ICM). Please use it to converse with your physicist colleagues and friends about the need to focus on propulsion physics.

In the spirit of the Kline Directive — bold, explore, seek & change — can we identify the 10 major technological innovations? Wouldn’t that keep you awake at night at the possibility of new unthinkable inventions that will take man where no man has gone before?

PS. I was going to name the Interstellar Challenge Matrix (ICM), the Feasibility Matrix for Interstellar Travel (FMIT), then I realized that it would not catch on at MIT, and decided to stay with ICM.

Previous post in the Kline Directive series.

Next post in the Kline Directive series.

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Benjamin T Solomon is the author & principal investigator of the 12-year study into the theoretical & technological feasibility of gravitation modification, titled An Introduction to Gravity Modification, to achieve interstellar travel in our lifetimes. For more information visit iSETI LLC, Interstellar Space Exploration Technology Initiative.

Solomon is inviting all serious participants to his LinkedIn Group Interstellar Travel & Gravity Modification.

Congratulations Skydiver Felix Baumgartner, on the success of your 24 mile skydive. You proved that it is possible to bail out of a space ship and land on Earth safely.

The records are nice to have but the engineering was superb!

To achieve interstellar travel, the Kline Directive instructs us to be bold, to explore what others have not, to seek what others will not, to change what others dare not. To extend the boundaries of our knowledge, to advocate new methods, techniques and research, to sponsor change not status quo, on 5 fronts:

1. Legal Standing. 2. Safety Awareness. 3. Economic Viability. 4. Theoretical-Empirical Relationship. 5. Technological Feasibility.

In this post I will explore Safety Awareness.

In the heady rush to propose academically acceptable ideas about new propulsions systems or star drives it is very easy to overlook safety considerations. The eminent cosmologist Carl Sagan said it best “So the problem is not to shield the payload, the problem is to shield the earth” (Planet. Space Sci., pp. 485 – 498, 1963)

It is perfectly acceptable if not warranted to propose these technologically infeasible star drives based on antimatter and exotic matter, as academic exercises because we need to understand what is possible and why. However, we need to inform the public of the safety issues when doing so.

I do not understand how any physicist or propulsion engineer, in his/her right mind, not qualify their academic exercise in antimatter propulsion or star drive with a statement similar to Carl Saga’s. At the very least it gets someone else thinking about those safety problems, and we can arrive at a solution sooner, if one exists.

We note that the distinguished Carl Sagan did not shy away from safety issues. He was mindful of the consequences and is an example of someone pushing the limits of safety awareness in the spirit of the Kline Directive, to explore issues which others would (could?) not.

We have to ask ourselves, how did we regress? From Sagan’s let us consider all ancillary issues, to our current let us ignore all ancillary issues. The inference I am forced to come to is that Carl Sagan was a one-man team, while the rest of us lesser beings need to come together as multi-person teams to stay on track, to achieve interstellar travel.

In interstellar & interplanetary space there are two parts to safety, radiation shielding and projectile shielding. Radiation shielding is about shielding from x-ray and gamma rays. Projectile shielding is about protection from physical damage caused by small particle collisions.

I may be wrong but I haven’t come across anyone even attempting to address either problems. I’ve heard of strategies such as using very strong electric fields or even of using millions of tons of metal shielding but these are not realistic. I’ve even heard of the need to address these issues but nothing more.

Safety is a big issue that has not been addressed. So how are we going to solve this? What do we need to explore that others have not? What do we need to seek that others would not? What do we need to change, that others dare not?

Previous post in the Kline Directive series.

Next post in the Kline Directive series.

—————————————————————————————————

Benjamin T Solomon is the author & principal investigator of the 12-year study into the theoretical & technological feasibility of gravitation modification, titled An Introduction to Gravity Modification, to achieve interstellar travel in our lifetimes. For more information visit iSETI LLC, Interstellar Space Exploration Technology Initiative.

Solomon is inviting all serious participants to his LinkedIn Group Interstellar Travel & Gravity Modification.

Summary

The Telemach theorem rests on Einstein’s 1907 work on the essence of gravity. It retains its grip on the most derived equations found in later years. The famous clock slowdown in gravity (of our own clocks down here compared to the clocks in the high-flying GPS-satellites) acquires three corollaries under the impact of quantum mechanics. Hence equally unnoticeable to us, all local lengths are expanded downstairs by the very same factor. And all local masses are decreased by the very same factor. And, owing to the constant ratios between mass and charge valid for the different particle classes, all charges are reduced by the very same factor down here. Thus, Time and Length and Mass and Charge are affected equally strongly. The result is easy to remember by recalling the name of Ulysses’ son: Telemach(us). Unfortunately, the theorem totally upsets the properties of black holes. The latter suddenly arise much more easily than hoped for in a famous ongoing experiment designed to produce them here on earth – and they simultaneously turn out to be invisible to CERN’s detectors. And once a specimen happens to be slow enough to stay inside earth, it eventually will settle down to grow due to a self-enhancing capturing effect exerted on quarks and leptons. While at first the pace of growth is ridiculously slow, problem is that this is an exponential process like compound interest. Every gain remains minute for quite a while but suddenly, there is this famous “knee” in the curve after but a few years’ time. Subsequently, earth is a 2-cm black hole that keeps the moon on its course by virtue of its unmitigated gravity. Up until now, no physicist was able to invalidate the theorem. The Cologne Administrative Court therefore gave the advice to hold a “safety conference” before continuing. This was on January 27, 2011. The greatest leap forward in the attempted production rate of black holes takes place these very days.

Watch http://www.youtube.com/watch?v=IULjmY7ZqFM

At first glance, one would consider the proposition of a base on Mercury, our Sun’s closest satellite, as ludicrous. With daytime temperatures reaching up to 700K — hot enough to melt lead — while the dark side of the planet experiences a temperature average of 110K — far colder than anywhere on Earth, combined with the lack of any substantial atmosphere, and being deep in the Sun’s gravitational potential well, conditions seem unfavorable.

First impressions can be misleading however, as it is well known that polar areas do not experience the extreme daily variation in temperature, with temperatures in a more habitable range (< 273 K (0 °C)) and it has been anticipated there may even be deposits of ice inside craters. http://nssdc.gsfc.nasa.gov/planetary/ice/ice_mercury.html

And is not just habitable temperature and ice-water in its polar regions that make Mercury an interesting candidate for an industrial base. There are a number of other factors making it more favourable than either a Looner or Martian base:

Mercury is the second densest planet in our solar system — being just slightly less dense than our Earth — and is rich in valuable resources, the highest concentrations of many valuable minerals of any surface in the Solar System, in highly concentrated ores. Also, being the closest planet to the Sun, Mercury has vast amounts of solar power available, and there are predictions that Mercury’s soil may contain large amounts of helium-3, which could become an important source of clean nuclear fusion energy on Earth and a driver for the future economy of the Solar System. Therefore it is a strong candidate for an industrial base.

Ticking other boxes — the gravity on the surface of Mercury is more than twice that of the Moon and very close to the surface gravity on Mars. Since there is evidence of human health problems associated with extended exposure to low gravity, from this point of view, Mercury might be more attractive for long-term human habitation than the Moon. Also, Mercury has the additional advantage of a magnetic field protecting it from cosmic rays and solar storms.

In fact, this idea is not a new one. Back in the 1980s, C.R. Pellegrino proposed covering Mercury with solar power farms, and transferring some of the resulting energy into a form useful for propulsion for interstellar travel. When one looks at the options we have available to us for first steps into space, we have another option available to us in Mercury.

To achieve interstellar travel, the Kline Directive instructs us to be bold, to explore what others have not, to seek what others will not, to change what others dare not. To extend the boundaries of our knowledge, to advocate new methods, techniques and research, to sponsor change not status quo, on 5 fronts:

1. Legal Standing. 2. Safety Awareness. 3. Economic Viability. 4. Theoretical-Empirical Relationship. 5. Technological Feasibility.

In this post I will explore Legal Standing.

With respect to space exploration, the first person I know of who pushed the limits of the law is Mr. Gregory W. Nemitz of The Eros Project. He started this project in March 2000. As a US taxpayer, Nemitz made the claim that he is the Owner of Asteroid 433, Eros, and published his claim about 11 months prior to NASA landing its “NEAR Shoemaker” spacecraft on this asteroid.

Within a few days of the NEAR Shoemaker spacecraft landing on his property, Nemitz sent an invoice for twenty dollars to NASA, for parking and storage fees at twenty cents per year, payable in one century installments.

Citing faulty interpretation of the Outer Space Treaty of 1967, NASA refused to pay the fees required by Nemitz. This issue then proceeded to court. Unfortunately, on April 26, 2004 U.S. District Court Judge Howard McKibben Ordered the case to be dismissed.

The moral of this real story is that you don’t have to be a high flying physicist, planetary geologist, astrobiologist or propulsion engineer to advocate &/or sponsor interstellar travel initiatives. You could even be a retired coastguard, and miraculous things might happen.

Congratulations Gregory Nemitz for trying something nobody else dared to do in the spirit of the Kline Directive.

Planetary Resources, Inc. whose founders are Eric Anderson and Peter H. Diamandis could possibly provide the second challenge to space law. How? The “treaty also states that the exploration of outer space shall be done to benefit all countries” … you see where I’m going with asteroid mining?

I’m not an attorney, but these are things we need to watch for. In the light of Planetary Resources objectives and activities Nemitz’s parking fee case poses some dilemmas. First, if the US Government will not stand up for its citizens or entities, what is to stop other governments from imposing taxes for mining what is “to benefit all countries”?

Unfriendly governments will be quick to realize that they have nothing to lose and everything to gain by pursuing such claims in international courts, and through UN organizations.

Second, the judicial system could not intervene because, were it to agree, then everyone would have a claim to outer space property without investing in their claim. That would be like saying John Doe, during the gold rush of the 1840s & 1850s, could claim half of California but had no intention to exercise his mining rights.

Everything hinges on what one could consider an ‘investing’. The Homestead Acts of 1862 to 1909 would be a useful analog. These Acts gave an applicant ownership at no cost of farmland called a “homestead” to anyone who had never taken up arms against the U.S. government, had to be 21 or older or the head of a family, live on the land for five years, and show evidence of having made improvements.

So what would an interplanetary equivalent be? You, the reader could propose your version. Here is a first pass at it. There are two parts:

1. Asteroids: An applicant may claim ownership to an asteroid, provided the claimant had never taken up arms against the U.S. government, and can exercise the claim by placing a token of claimant’s ownership on the claimed asteroid within 1,000 Earth days or equivalent, of submitting the claim. Upon placing the token on the asteroid, the claimant is then given 2,000 Earth days or equivalent, to show evidence of having developed the commercial value of the asteroid.

Failure to comply will cause the claim to be null & void and return the asteroid to the public for future applicants to claim the property.

2. Planetary Resources: An applicant may claim ownership of up to 25 km2 of planetary surface, and the mineral & water rights within the area, provided the claimant had never taken up arms against the U.S. government, and can exercise the claim by placing a token of claimant’s ownership on the claimed planetary surface within 1,000 Earth days or equivalent, of submitting the claim. Upon placing the token on the planetary surface, the claimant is then given 2,000 Earth days or equivalent, to show evidence of having developed the commercial value of this planetary surface.

Failure to comply will cause the claim to be null & void and return the planetary surface to the public for future applicants to claim the property.

In the case of gaseous planets like Jupiter, the claim shall be limited to 25 km3 at specified altitudes, longitudes, and latitutes.

Planetary Resources, Inc. I wish you the best.

Previous post in the Kline Directive series.

Next post in the Kline Directive series.

—————————————————————————————————

Benjamin T Solomon is the author & principal investigator of the 12-year study into the theoretical & technological feasibility of gravitation modification, titled An Introduction to Gravity Modification, to achieve interstellar travel in our lifetimes. For more information visit iSETI LLC, Interstellar Space Exploration Technology Initiative.

Solomon is inviting all serious participants to his LinkedIn Group Interstellar Travel & Gravity Modification.

… when I point to my published scientific finding that our own slower-ticking clocks down here on earth – compared to their twins installed in those high-flying G.P.S. satellites – are, apart from being slowed, also enlarged, mass-reduced and charge-reduced by the same factor.

This T-L-M-Ch theorem is a corollary to Einstein’s “happiest thought.” As long as it stays un-refuted, as it does for 5 years, no one on earth contradicts the conclusion that BLACK HOLES possess radically new properties. Hence the ongoing attempt at producing them on earth needs to be stopped immediately.

Greece could ingratiate the planet by her immediately convoking the “safety conference” suggested by a court on January 27, 2011. Humankind owes science to Greece as everyone knows. If today, Greece takes up the named suggestion (made by the Cologne Administrative Court), every mother on the planet will praise her for a whole new reason while the debts incurred by Greece will be considered a privilege to shoulder by the world community at large.

ZEYS SOTHP – Greece our savior

Science and engineering are hard to do. If it wasn’t we would have a space bridge from here to the Moon by now. If you don’t have the real world practical experience doing either science or engineering you won’t understand this, or the effort and resources companies like Boeing, Lockheed, SpaceX, Orbital Sciences Corp, Scaled Composites, Virgin Galactic, and the Ad Astra Rocket Company have put into their innovations and products to get to where they are, today.

If we are to achieve interstellar travel, we have to be bold.
We have to explore what others have not.
We have to seek what others will not.
We have to change what others dare not.

The dictionary definition of a directive is, an instruction or order, tending to direct or directing, and indicating direction.

Dictionary of Military and Associated Terms, US Department of Defense 2005, provides three similar meanings,

1. A military communication in which policy is established or a specific action is ordered.
2. A plan issued with a view to putting it into effect when so directed, or in the event that a stated contingency arises.
3. Broadly speaking, any communication which initiates or governs action, conduct, or procedure.

In honor of the late Prof. Morris Kline who authored Mathematics: The Loss of Certainty, I have named what we need to do to ensure the success of our endeavors for interstellar space travel, as the Kline Directive.

His book could be summarized into a single statement, that mathematics has become so sophisticated and so very successful that it can now be used to prove anything and everything, and therefore, the loss of certainty that mathematics will provide reasonability in guidance and correctness in answers to our questions in the sciences.

To achieve interstellar travel, the Kline Directive instructs us to be bold, to explore what others have not, to seek what others will not, to change what others dare not.

To extend the boundaries of our knowledge, to advocate new methods, techniques and research, to sponsor change not status quo, on 5 fronts:

1. Legal Standing.
2. Safety Awareness.
3. Economic Viability.
4. Theoretical-Empirical Relationship.
5. Technological Feasibility.

I will explore each of these 5 fronts on how we can push the envelop to reach the stars sooner rather than later.

Next post in the Kline Directive series

—————————————————————————————————

Benjamin T Solomon is the author & principal investigator of the 12-year study into the theoretical & technological feasibility of gravitation modification, titled An Introduction to Gravity Modification, to achieve interstellar travel in our lifetimes. For more information visit iSETI LLC, Interstellar Space Exploration Technology Initiative.

Solomon is inviting all serious participants to his LinkedIn Group Interstellar Travel & Gravity Modification.

Texans can breathe easier: the radioactive waste Halliburton fracking surveyors lost last month has finally been found.

The United Arab Emirates-based oil services company told reporters this weekend that an oilfield worker found the rod of americium-241/beryllium alongside a highway near Pecos, Texas.

Halliburton reported it missing on September 11, and members of the Texas National Guard were ultimately called up to aid their search. Halliburton said it even deployed vehicles fitted with radiation detection equipment, but found nothing on three sweeps of the area.

Americium-241/beryllium is used for a variety of industrial and medical purposes, and in this case was needed for equipment used to identify potential sites for natural gas drilling. It is a “Category 3” radioactive substance, according to the U.S. Environmental Protection Agency (EPA).

“Category 3 sources, if not safely managed or securely protected, could cause permanent injury to a person who handled them, or were otherwise in contact with them, for some hours,” the U.S. Nuclear Regulatory Commission (NRC) explained. “It could possibly — although it is unlikely — be fatal to be close to this amount of unshielded radioactive material for a period of days to weeks.”

Continuing Reading “Halliburton’s missing nuclear waste found alongside Texas highway”

Using an innocuous bacterial virus, bioengineers have created a biological mechanism to send genetic messages from cell to cell. The system greatly increases the complexity and amount of data that can be communicated between cells and could lead to greater control of biological functions within cell communities…

In harnessing DNA for cell-cell messaging the researchers have also greatly increased the amount of data they can transmit at any one time. In digital terms, they have increased the bit rate of their system. The largest DNA strand M13 is known to have packaged includes more than 40,000 base pairs. Base pairs, like 1s and 0s in digital encoding, are the basic building blocks of genetic data. Most genetic messages of interest in bioengineering range from several hundred to many thousand base pairs.

Ortiz was even able to broadcast her genetic messages between cells separated by a gelatinous medium at a distance of greater than 7 centimeters.

“That’s very long-range communication, cellularly speaking,” she said.

Down the road, the biological Internet could lead to biosynthetic factories in which huge masses of microbes collaborate to make more complicated fuels, pharmaceuticals and other useful chemicals. With improvements, the engineers say, their cell-cell communication platform might someday allow more complex three-dimensional programming of cellular systems, including the regeneration of tissue or organs.

Continue reading “Stanford Bioengineers Introduce ‘Bi-Fi’ — The Biological Internet”