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“He is not here; He has risen,” — Matthew 28:6

As billions of Christians around the world are getting ready to celebrate the Easter festival and holiday, we take pause to appreciate the awe inspiring phenomena of resurrection.

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In religious and mythological contexts, in both Western and Eastern societies, well known and less common names appear, such as Attis, Dionysus, Ganesha, Krishna, Lemminkainen, Odin, Osiris, Persephone, Quetzalcoatl, and Tammuz, all of whom were reborn again in the spark of the divine.

In the natural world, other names emerge, which are more ancient and less familiar, but equally fascinating, such as Deinococcus radiodurans, Turritopsis nutricula, and Milnesium tardigradum, all of whose abilities to rise from the ashes of death, or turn back time to start life again, are only beginning to be fully appreciated by the scientific world.

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In the current era, from an information technology centric angle, proponents of a technological singularity and transhumanism, are placing bets on artificial intelligence, virtual reality, wearable devices, and other non-biological methods to create a future connecting humans to the digital world.

This Silicon Valley, “electronic resurrection” model has caused extensive deliberation, and various factions to form, from those minds that feel we should slow down and understand the deeper implications of a post-biologic state (Elon Musk, Steven Hawking, Bill Gates, the Vatican), to those that are steaming full speed ahead (Ray Kurzweil / Google) betting that humans will shortly be able to “transcend the limitations of biology”.

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However, deferring an in-depth Skynet / Matrix discussion for now, is this debate clouding other possibilities that we have forgotten about, or may not have even yet fully considered?

Today, we find ourselves at an interesting point in history where the disciplines of regenerative sciences, evolutionary medicine, and complex systems biology, are converging to give us an understanding of the cycle of life and death, orders of magnitude more complex than only a few years ago.

In addition to the aforementioned species that are capable of biologic reanimation and turning back time, we show no less respect for those who possess other superhuman capabilities, such as magnetoreception, electrosensing, infrared imaging, and ultrasound detection, all of which nature has been optimizing over hundreds of millions of years, and which provide important clues to the untapped possibilities that currently exist in direct biological interfaces with the physical fabric of the universe.

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The biologic information processing occurring in related aneural organisms and multicellular colony aggregators, is no less fascinating, and potentially challenges the notion of the brain as the sole repository of long-term encoded information.

Additionally, studies on memory following the destruction all, or significant parts of the brain, in regenerative organisms such as planarians, amphibians, metamorphic insects, and small hibernating mammals, have wide ranging implications for our understanding of consciousness, as well as to the centuries long debate between the materialists and dualists, as to whether we should focus our attention “in here”, or “out there”.

I am not opposed to studying either path, but I feel that we have the potential to learn a lot more about the topic of “out there” in the very near future.

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The study of brain death in human beings, and the application of novel tools for neuro-regeneration and neuro-reanimation, for the first time offer us amazing opportunities to start from a clean slate, and answer questions that have long remained unanswered, as well as uncover a knowledge set previously thought unreachable.

Aside from a myriad of applications towards the range of degenerative CNS indications, as well as disorders of consciousness, such work will allow us to open a new chapter related to many other esoteric topics that have baffled the scientific community for years, and fallen into the realm of obscure curiosities.

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From the well documented phenomena of terminal lucidity in end stage Alzheimer’s patients, to the mysteries of induced savant syndrome, to more arcane topics, such as the thousands of cases of children who claim to remember previous lives, by studying death, and subsequently the “biotechnological resurrection” of life, we can for the first time peak through the window, and offer a whole new knowledge base related to our place, and our interaction, with the very structure of reality.

We are entering a very exciting era of discovery and exploration.

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About the author

Ira S. Pastor is the Chief Executive Officer of Bioquark Inc. (www.bioquark.com), an innovative life sciences company focusing on developing novel biologic solutions for human regeneration, repair, and rejuvenation. He is also on the board of the Reanima Project (www.reanima.tech)

Next January Stephen Hawking will be 74 years old. He has lived much longer than most individuals with his debilitating condition. In addition to being an unquestionably gifted cosmologist, he has invited controversy by supporting the pro-Palestinian, Israel-BDS boycott and warning about the dangers of alien invaders who tap into our interstellar greetings

Antisemitism, notwithstanding, this man is a mental giant. He is Leonardo. He is Einstein. Like them, his discoveries and theories will echo for generations beyond his life on earth. He is that genius.


Forty years ago, when Stephen Hawking still had mobility, he delivered a paper on a mystery regarding information-loss for entities that cross the event boundary of a black hole.

In the mid 1970s, Astronomers were just discovering black holes and tossing about various theories about the event horizon and its effect on the surrounding space-time. Many individuals still considered black holes to be theoretical. Hawking’s analysis of the information paradox seemed extremely esoteric. Yet, last month (Aug 2015) , at Sweeden’s KTH Royal Institute of Technology, Hawking presented a possible solution to the paradox that he sparked.

I can barely understand the issue and cannot articulately rephrase the problem. But my interest in the black hole event horizon takes a back seat to my interest in the amazing tool created to compensate for the famous cosmologist’s handicap. Watch closely as Stephen Hawking offers a new theory that provides a possible explanation for the paradox.

Near the end of the video (beginning at 7:22), the camera begins a steady zoom up to Hawking’s face. Unlike a year ago, when he could still smile at a joke or move his eyes, he now appears completely motionless. Throughout his speech, there is no sense of animation—not even a twitch—with or without purpose. His eyebrow doesn’t move, his fingers are not restless, he doesn’t blink anymore.

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So, how, then, does Hawking speak with normal cadence and just a short delay between sentences? (If we assume that his computer adds emphasis without additional effort, I estimate that his ASCII communications rate is roughly equivalent to a 1200-baud modem, circa 1980). Yet, clearly, there must be a muscular conduit between thought and speech. How is it that his thoughts are converted to speech at almost the same rate as someone who is not paralyzed?

That magic is enabled by a tiny camera that monitors a slowly deteriorating cheek muscle. It is Hawking’s last connection to the outside world. What began as index cards with words and then an Apple II computer, has evolved into a sophisticated upgrade process involving cutting edge analysis of the professor’s slightest tick combined with sophisticated computing algorithms. The camera and software that interprets this microscopic Morse code is tied to a process that optimizes options for successive words and phrases. He is actually communicating at far less than 1200 baud, because—like a court stenographer—he employs shorthand and Huffman encoding to compress words and phrases into his twitch pipeline. Drawing on a powerful processor and connected to the Web, his gear is constantly upgraded by a specialized Intel design team. StenographerThey are engaged in a race to offer Hawking the potential for communication up until he has no capacity for interaction at all.

In a recent documentary by Hawking himself,* he laments the likely day when he will no longer have any capacity for output at all. No ability to discuss physics and cosmology; no way to say “I need help” or “I love you”; no way to show any sign of cognition. At that time, he reflects, the outside world will no longer be certain that there is anything going on behind his blank stare. They will never really know when or if he wants them to pull the plug. Even more mind boggling, humanity will never know what secrets his brilliant mind has unlocked to mysteries of the cosmos.

* Referring to his 2013 autobiographical film and not the 2014 feature film about his life, Theory of Everything.

Philip Raymond is CEO and Co-Chair of CRYPSA,
The Cryptocurrency Standards Association.

Consider how many natural laws and constants—both physical and chemical—have been discovered since the time of the early Greeks. Hundreds of thousands of natural laws have been unveiled in man’s never ending quest to understand Earth and the universe.

I couldn’t name 1% of the laws of nature and physics. Here are just a few that come to mind from my high school science classes. I shall not offer a bulleted list, because that would suggest that these random references to laws and constants are organized or complete. It doesn’t even scratch the surface…

Newton’s Law of force (F=MA), Newton’s law of gravity, The electromagnetic force, strong force, weak force, Avogadro’s Constant, Boyle’s Law, the Lorentz Transformation, Maxwell’s equations, laws of thermodynamics, E=MC2, particles behave as waves, superpositioning of waves, universe inflation rate, for every action… etc, etc.

For some time, physicists, astronomers, chemists, and even theologians have pondered an interesting puzzle: Why is our universe so carefully tuned for our existence? And not just our existence—After all, it makes sense that our stature, our senses and things like muscle mass and speed have evolved to match our environment. But here’s the odd thing—If even one of a great many laws, properties or constants were off by even a smidgen, the whole universe could not exist—at least not in a form that could support life as we imagine it! Even the laws and numbers listed above. All of creation would not be here, if any of these were just a bit off…

cosmic_questWell, there might be something out there, but it is unlikely to have resulted in life—not even life very different than ours. Why? Because without the incredibly unique balance of physical and chemical properties that we observe, matter would not coalesce into stars, planets would not crunch into balls that hold an atmosphere, and they would not clear their path to produce a stable orbit for eons. Compounds and tissue would not bind together. In fact, none of the things that we can imagine could exist.

Of course, theologians have a pat answer. In one form or another, religions answer all of cosmology by stating a matter of faith: “The universe adheres to God’s design, and so it makes sense that everything works”. This is a very convenient explanation, because these same individuals forbid the obvious question: ‘Who created God?’ and ‘What existed before God?’ Just ask Bill Nye or Bill Maher. They have accepted offers to debate those who feel that God created Man instead of the other way around.

Scientists, on the other hand, take pains to distance themselves from theological implications. They deal in facts and observable phenomenon. Then, they form a hypotheses and begin testing. That’s what we call the scientific method.

If any being could evolve without the perfect balance of laws and constants that we observe, it would be a single intelligence distributed amongst a cold cloud of gas. In fact, a universe that is not based on many of the observed numbers (including the total mass of everything in existence) probably could not be stable for very long.

rene_descartes-sDoes this mean that it’s all about you?! Are you, Dear reader, the only thing in existence?—a living testament to René Descartes?

Don’t discount that notion. Cosmologists acknowledge that your own existence is the only thing of which you can be absolutely sure. (“I think. Therefore, I am”). If you cannot completely trust your senses as s portal to reality, then no one else provably exists. But, most scientists (and the rest of us, too) are willing to assume that we come from a mother and father and that the person in front of us exists as a separate thinking entity. After all, if we can’t start with this assumption, then the rest of physics and reality hardly matters, because we are too far removed from the ‘other’ reality to even contemplate what is outside of our thoughts.

Two questions define the field of cosmology—How did it all begin and why does it work? Really big questions are difficult to test, and so we must rely heavily on tools and observation:

• Is the Big Bang a one-off event, or is it one in a cycle of recurring events?
• Is there anything beyond the observable universe? (something apart from the Big Bang)
• Does natural law observed in our region of the galaxy apply everywhere?
• Is there intelligent life beyond Earth?

Having theories that are difficult to test does not mean that scientists aren’t making progress. Even in the absence of frequent testing, a lot can be learned from observation. Prior to 1992, no planet had ever been observed or detected outside of our solar system. For this reason, we had no idea of the likelihood that planets form and take orbit around stars.

Today, almost 2000 exoplanets have been discovered with 500 of them belonging to multiple planetary systems. All of these were detected by indirect evidence—either the periodic eclipsing of light from a star, which indicates that something is in orbit around it, or subtle wobbling of the star itself, which indicates that it is shifting around a shared center of gravity with a smaller object. But wait! Just this month, a planet close to our solar system (about 30 light years away) was directly observed. This is a major breakthrough, because it gives us an opportunity to perform spectral analysis of the planet and its atmosphere.

Is this important? That depends on goals and your point of view. For example, one cannot begin to speculate on the chances for intelligent life, if we have no idea how common or unusual it is for a star to be orbited by planets. It is a critical factor in the Drake Equation. (I am discounting the possibility of a life form living within a sun, not because it is impossible or because I am a human-chauvinist, but because it would not likely be a life form that we will communicate with in this millennium).

Stephen HawkingOf course, progress sometimes raises completely new questions. In the 1970s, Francis Drake and Carl Sagan began exploring the changing rate of expansion between galaxies. This created an entirely new question and field of study related to the search for dark matter.

Concerning the titular question: “Why is the universe fine-tuned for life?”, cosmologist Stephen Hawking offered an explanation last year that might help us to understand. At last, it offers a theory, even if it is difficult to test. The media did their best to make Professor Hawking’s explanation digestible, explaining it something like this [I am paraphrasing]:

There may be multiple universes. We observe only the one in which we exist. Since our observations are limited to a universe with physical constants and laws that resulted in us—along with Stars, planets, gravity and atmospheres, it seems that the conditions for life are all too coincidental. But if we imagine countless other universes outside of our realm (very few with life-supporting properties), then the coincidence can be dismissed. In effect, as observers, we are regionalized into a small corner.

Cosmic EpochsThe press picked up on this explanation with an unfortunate headline that blared the famous Professor had proven that God does not exist. Actually, Hawking said that miracles stemming out of religious beliefs are “not compatible with science”. Although he is an atheist, he said nothing about God not existing. He simply offered a theory to explain an improbable coincidence.

I am not a Cosmologist. I only recently have come to understand that it is the science of origin and is comprised of astronomy, particle physics, chemistry and philosophy. (But not religion—please don’t go there!). If my brief introduction piques your interest, a great place to spread your wings is with Tim Maudlin’s recent article in Aeon Magazine, The Calibrated Cosmos. Tim succinctly articulates the problem of a fine-tuned universe in the very first paragraph:

“Theories now suggest that the most general structural elements of the universe — the stars and planets, and the galaxies that contain them — are the products of finely calibrated laws and conditions that seem too good to be true.”

And: “Had the constants of nature taken slightly different values, we would not be here.”

The article delves into the question thoroughly, while still reading at a level commensurate with Sunday drivers like you and me. If you write to Tim, tell him I sent you. Tell him that his beautifully written article has added a whole new facet to my appreciation for being!

Philip Raymond is Co-Chair of The Cryptocurrency Standards Association and CEO of Vanquish Labs.
This is his fourth article for Lifeboat Foundation and his first as an armchair cosmologist.

Related: Quantum Entanglement: EPR Paradox

The Kline Directive: Theoretical-Empirical Relationship (Part 4)

Posted in business, cosmology, defense, economics, education, engineering, nuclear weapons, particle physics, philosophy, physics, policy, scientific freedom, spaceTagged , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , | 11 Comments on The Kline Directive: Theoretical-Empirical Relationship (Part 4)

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, Legal Standing, Safety Awareness, Economic Viability, Theoretical-Empirical Relationship, & Technological Feasibility.

In this post I have updated the Interstellar Challenge Matrix (ICM) to guide us through the issues so that we can arrive at interstellar travel sooner, rather than later:

Interstellar Challenge Matrix (Partial Matrix)

Propulsion Mechanism Relatively Safe? Theoretical-Empirical Relationship?
Conventional Fuel Rockets: Yes, but susceptible to human error. Known. Theoretical foundations are based on Engineering Feasible Theories, and have been evolving since Robert Goddard invented the first liquid-fueled rocket in 1926.
Antimatter Propulsion: No. Extensive gamma ray production (Carl Sagan). Issue is how does one protect the Earth? Capable of an End of Humanity (EOH) event. Dependent on Millennium Theories. John Eades states in no uncertain terms that antimatter is impossible to handle and create.
Atomic Bomb Pulse Detonation: No, because (Project Orion) one needs to be able to manage between 300,000 and 30,000,000 atomic bombs per trip. Known and based on Engineering Feasible Theories.
Time Travel: Do Not Know. Depends on how safely exotic matter can be contained. Dependent on a Millennium Theory. Exotic matter hypotheses are untested. No experimental evidence to show that Nature allows for a breakdown in causality.
String / Quantum Foam Based Propulsion: Do Not Know. Depends on how safely exotic matter can be contained. Dependent on a Millennium Theory. String theories have not been experimentally verified. Exotic matter hypotheses are untested. Existence of Quantum Foam now suspect (Robert Nemiroff).
Small Black Hole Propulsion: No. Capable of an End Of Humanity (EOH) event Don’t know if small black holes really do exist in Nature. Their theoretical basis should be considered a Millennium Theory.

It is quite obvious that the major impediments to interstellar travel are the Millennium Theories. Let us review. Richard Feynman (Nobel Prize 1965) & Sheldon Lee Glashow (Nobel Prize 1979) have criticized string theory for not providing novel experimental predictions at accessible energy scales, but other theoretical physicists (Stephen Hawking, Edward Witten, Juan Maldacena and Leonard Susskind) believe that string theory is a step towards the correct fundamental description of nature. The Wikipedia article String Theory gives a good overview, and notes other critics and criticisms of string theories. In What is String Theory? Alberto Güijosa explains why string theories have come to dominate theoretical physics. It is about forces, and especially about unifying gravity with the other three forces.

Note, strings expand when their energy increases but the experimental evidence aka Lorentz-Fitzgerald transformations tell us that everything contracts with velocity i.e. as energy is increased.

In my opinion, the heady rush to a theory of everything is misguided, because there is at least one question that physics has not answered that is more fundamental than strings and particles. What is probability and how is it implemented in Nature?

Probabilities are more fundamental than particles as particles exhibit non-linear spatial probabilistic behavior. So how can one build a theory of everything on a complex structure (particles), if it cannot explain something substantially more fundamental (probabilities) than this complex structure? The logic defies me.

We can ask more fundamental questions. Is this probability really a Gaussian function? Experimental data suggests otherwise, a Var-Gamma distribution. Why is the force experienced by an electron moving in a magnetic field, orthogonal to both the electron velocity and the magnetic field? Contemporary electromagnetism just says it is vector cross product, i.e. it is just that way. The cross product is a variation of saying it has to be a Left Hand Rule or a Right Hand Rule. But why?

Is mass really the source of a gravitational field? Could it not be due to quark interaction? Can we device experiments that can distinguish between the two? Why do photons exhibit both wave and particle behavior? What is momentum, and why is it conserved? Why is mass and energy equivalent?

Can theoretical physicists construct theories without using the laws of conservation of mass-energy and momentum? That would be a real test for a theory of everything!

In my research into gravity modification I found that the massless formula for gravitational acceleration, g=τc2, works for gravity, electromagnetism and mechanical forces. Yes, a unification of gravity and electromagnetism. And this formula has been tested and verified with experimental data. Further that a force field is a Non Inertia (Ni) field, and is present where ever there is a spatial gradient in time dilations or velocities. This is very different from the Standard Model which requires that forces are transmitted by the exchange of virtual particles.

So if there is an alternative model that has united gravity and electromagnetism, what does that say for both string theories and the Standard Model? I raise these questions because they are opportunities to kick start research in a different direction. I answered two of these questions in my book. In the spirit of the Kline Directive can we use these questions to explore what others have not, to seek what others will not, to change what others dare not?

That is why I’m confident that we will have real working gravity modification technologies by 2020.

In concluding this section we need to figure out funding rules to ensure that Engineering Feasible and 100-Year Theories get first priority. That is the only way we are going to be able to refocus our physics community to achieve interstellar travel sooner rather than later.

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.