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In 2014, I submitted my paper “A Universal Approach to Forces” to the journal Foundations of Physics. The 1999 Noble Laureate, Prof. Gerardus ‘t Hooft, editor of this journal, had suggested that I submit this paper to the journal Physics Essays.

My previous 2009 submission “Gravitational acceleration without mass and noninertia fields” to Physics Essays, had taken 1.5 years to review and be accepted. Therefore, I decided against Prof. Gerardus ‘t Hooft’s recommendation as I estimated that the entire 6 papers (now published as Super Physics for Super Technologies) would take up to 10 years and/or $20,000 to publish in peer reviewed journals.

Prof. Gerardus ‘t Hooft had brought up something interesting in his 2008 paper “A locally finite model for gravity” that “… absence of matter now no longer guarantees local flatness…” meaning that accelerations can be present in spacetime without the presence of mass. Wow! Isn’t this a precursor to propulsion physics, or the ability to modify spacetime without the use of mass?

As far as I could determine, he didn’t pursue this from the perspective of propulsion physics. A year earlier in 2007, I had just discovered the massless formula for gravitational acceleration g=τc^2, published in the Physics Essays paper referred above. In effect, g=τc^2 was the mathematical solution to Prof. Gerardus ‘t Hooft’s “… absence of matter now no longer guarantees local flatness…”

Prof. Gerardus ‘t Hooft used string theory to arrive at his inference. Could he empirically prove it? No, not with strings. It took a different approach, numerical modeling within the context of Einstein’s Special Theory of Relativity (STR) to derive a mathematic solution to Prof. Gerardus ‘t Hooft’s inference.

In 2013, I attended Dr. Brian Greens’s Gamow Memorial Lecture, held at the University of Colorado Boulder. If I had heard him correctly, the number of strings or string states being discovered has been increasing, and were now in the 10500 range.

I find these two encounters telling. While not rigorously proved, I infer that (i) string theories are unable to take us down a path the can be empirically proven, and (ii) they are opened ended i.e. they can be used to propose any specific set of outcomes based on any specific set of inputs. The problem with this is that you now have to find a theory for why a specific set of inputs. I would have thought that this would be heartbreaking for theoretical physicists.

In 2013, I presented the paper “Empirical Evidence Suggest A Need For A Different Gravitational Theory,” at the American Physical Society’s April conference held in Denver, CO. There I met some young physicists and asked them about working on gravity modification. One of them summarized it very well, “Do you want me to commit career suicide?” This explains why many of our young physicists continue to seek employment in the field of string theories where unfortunately, the hope of empirically testable findings, i.e. winning the Noble Prize, are next to nothing.

I think string theories are wrong.

Two transformations or contractions are present with motion, Lorentz-FitzGerald Transformation (LFT) in linear motion and Newtonian Gravitational Transformations (NGT) in gravitational fields.

The fundamental assumption or axiom of strings is that they expand when their energy (velocity) increases. This axiom (let’s name it the Tidal Axiom) appears to have its origins in tidal gravity attributed to Prof. Roger Penrose. That is, macro bodies elongate as the body falls into a gravitational field. To be consistent with NGT the atoms and elementary particles would contract in the direction of this fall. However, to be consistent with tidal gravity’s elongation, the distances between atoms in this macro body would increase at a rate consistent with the acceleration and velocities experienced by the various parts of this macro body. That is, as the atoms get flatter, the distances apart get longer. Therefore, for a string to be consistent with LFT and NGT it would have to contract, not expand. One suspects that this Tidal Axiom’s inconsistency with LFT and NGT has led to an explosion of string theories, each trying to explain Nature with no joy. See my peer-reviewed 2013 paper New Evidence, Conditions, Instruments & Experiments for Gravitational Theories published in the Journal of Modern Physics, for more.

The vindication of this contraction is the discovery of the massless formula for gravitational acceleration g=τc^2 using Newtonian Gravitational Transformations (NGT) to contract an elementary particle in a gravitational field. Neither quantum nor string theories have been able to achieve this, as quantum theories require point-like inelastic particles, while strings expand.

What worries me is that it takes about 70 to 100 years for a theory to evolve into commercially viable consumer products. Laser are good examples. So, if we are tying up our brightest scientific minds with theories that cannot lead to empirical validations, can we be the primary technological superpower a 100 years from now?

The massless formula for gravitational acceleration g=τc^2, shows us that new theories on gravity and force fields will be similar to General Relativity, which is only a gravity theory. The mass source in these new theories will be replaced by field and particle motions, not mass or momentum exchange. See my Journal of Modern Physics paper referred above on how to approach this and Super Physics for Super Technologies on how to accomplish this.

Therefore, given that the primary axiom, the Tidal Axiom, of string theories is incorrect it is vital that we recognize that any mathematical work derived from string theories is invalidated. And given that string theories are particle based theories, this mathematical work is not transferable to the new relativity type force field theories.

I forecast that both string and quantum gravity theories will be dead by 2017.

When I was seeking funding for my work, I looked at the Broad Agency Announcements (BAAs) for a category that includes gravity modification or interstellar propulsion. To my surprise, I could not find this category in any of our research organizations, including DARPA, NASA, National Science Foundation (NSF), Air Force Research Lab, Naval Research Lab, Sandia National Lab or the Missile Defense Agency.

So what are we going to do when our young graduates do not want to or cannot be employed in string theory disciplines?

(Originally published in the Huffington Post)

Part 2 Here

Need For New Experiments To Test Quantum Mechanics & Relativity
We now have a new physics, without adding additional dimensions, that challenge the foundations of contemporary theories. Note very carefully, this is not about the ability of quantum mechanics or relativity to provide exact answers. That they do extremely well. With Ni fields, can we test for which is better or best?

A better nomenclature is a ‘single-structure test’, a test to validate the structure proposed by a hypothesis or theory. For example, Mercury’s precession is an excellent single-structure test for relativity, but it does not say how this compares to say, quantum gravity. On the other hand, a ‘dual-structure’ test would compare any two different competing theories. The recent three photon observation would be an example of a dual-structure test. Relativity requires that spacetime is smooth and continuous but quantum gravity requires spacetime to be “comprised of discrete, invisibly small building blocks”. This three photon observation showed that spacetime was smooth and continuous down to distances smaller than predicted by quantum gravity. Therefore, suggesting that both quantum foam and quantum gravity maybe in part or whole invalidated, while upholding relativity.

Therefore, the new tests would authenticate or invalidate Ni fields as opposed to quantum mechanics or relativity. That is, it is about testing for structure or principles not for exactness. Of course both competing theories must first pass the single-structure test for exactness, before they can be considered for a dual-structure test.

Is it possible to design a single-structure test that will either prove or disprove that virtual particles are the carrier of force? Up to today that I know of, this test has not been done. Maybe this is not possible. Things are different now. We have an alternate hypothesis, Ni fields, that force is expressed by the spatial gradient of time dilation. These are two very different principles. A dual-structure test could be developed that considers these differences.

Except for the three photon observation, it does not make sense to conduct a dual-structure test on relativity versus quantum mechanics as alternate hypotheses, because they operate in different domains, galactic versus Planck distances. Inserting a third alternative, Ni fields, could provide a means of developing more dual-structure tests for relativity and quantum mechanics with the Ni field as an alternate hypothesis.

Could we conduct a single-structure test on Ni fields? On a problem where all other physicist-engineers (i.e. quantum mechanics, relativity or classical) have failed to solve? Prof. Eric Laithwaite’s Big Wheel experiment would be such a problem. Until now no one has solved it. Not with classical mechanics, quantum mechanics, relativity or string theories. The Big Wheel experiment is basically this. Pivot a wheel to the end of a 3-ft (1 m) rod. Spin this wheel to 3,000 rpm or more. Then rotate this rod with the spinning wheel at the other end. The technical description is, rotate the spin vector.

It turns out that the solution to the Big Wheel experiment is that acceleration a=ωrωs√h is governed by the rotation ωr, spin ωs, and the physical structure √h, and produces weight loss and gain. This is the second big win for Ni fields. The first is the unification of gravitational, electromagnetic and mechanical forces.

How interesting. We have a mechanical construction that does not change its mass, but is able to produce force. If the spin and rotation are of like sense to the observer, the force is toward the observer. If unlike then the force is away from the observer. Going back to the Ω function, we note that in the Ω function, mass has been replaced by spin and rotation, and more importantly the change in the rotation and spin appears to be equivalent to a change in mass. Further work is required to develop an Ω function into a theoretical model.

The next step in challenging the foundations of physics is to replace the mass based Ω function with an electromagnetic function. The contemporary work to unify electromagnetism with gravity is focused on the tensor side. This essay, however, suggests that this may not be the case. If we can do this – which we should be able to do, as Ni fields explain electron motion in a magnetic field — the new physics will enable us to use electrical circuits to create force, and will one day replace all combustion engines.

Imagine getting to Mars in 2 hours.

The How Of Interstellar Travel
But gravity modification is not the means for interstellar travel because mass cannot be accelerated past the velocity of light. To develop interstellar propulsion technology requires thinking outside the box. One possibility is, how do we ‘arrive’ without ‘travelling’. Surprisingly, Nature shows us that this is possible. Both photons and particles with mass (electrons, protons & neutrons) have probabilistic natures. If these particles pass through a slit they ‘arrive’ at either sides of the slit, not just straight ahead! This ‘arrival’ is governed by probabilities. Therefore, interstellar travel technology requires an understanding of how probability is implemented in Nature, and we need to figure out how to control the ‘arrival’ event, somewhat like the Hitch Hiker’s Guide to the Galaxy’s ‘infinite improbability drive’.

Neither relativity nor quantum mechanics can or has attempted to explain probabilities. So what is probability? And, in the single slit experiment why does it decrease as one moves orthogonally away from the slit? I proposed that probabilities are a property of subspace and the way to interstellar travel. Subspace co-exists with spacetime but does not have the time dimension. So how do we test for subspace? If it is associated with probability, then can we determine tests that can confirm subspace? I have suggested one in my book. More interestingly, for starters, can we alter the probability of arrivals in the single slit experiments?

To challenge the foundations of pshyics, there are other questions we can ask. Why is the Doppler Effect not a special case of Gravitational Red/Blue shift? Why is the Hubble parameter not a constant? Can we find the answers? Will seeking these answers keep us awake at night at the possibility of new unthinkable inventions that will take man where no man has gone before?

References
R.L. Amoroso, G. Hunter, M. Kafatos, and Vigier, Gravitation and Cosmology: From the Hubble Radius to the Plank Scale, Proceedings of a Symposium in Honour of the 80th Birthday of Jean-Pierre Vigier, Edited by Amoroso, R.L., Hunter, G., Kafatos, M., and Vigier, J-P., (Kluwer Academic Publishers, Boston, USA, 2002).

H. Bondi, Reviews of Modern Physics, 29–3, 423 (1957). G. Hooft, Found Phys 38, 733 (2008).

B.T. Solomon, “An Approach to Gravity Modification as a Propulsion Technology”, Space, Propulsion and Energy Sciences International Forum (SPESIF 2009), edited by Glen Robertson, AIP Conference Proceedings, 1103, 317 (2009).

B.T. Solomon, Phys. Essays 24, 327 (2011)

R. V. Wagoner, 26th SLAC Summer Institute on Particle Physics, SSI 98, 1 (1998).

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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.