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Meaning of Life

6 Jan

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INTERDENDENCE of Humans and Nature: We Are One

21 Jul

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As I have written in my newest book- The Buddha’s Radical Psychology: Explorations, there are direct implications for ecological ethics throughout the Buddha’s teachings. There is a holism. The Buddha emphasized the interdependence of human and non-human life, the importance of the ecosystem and of natural processes. By rejecting the concept of a substantial ‘self’, and comprehension of the interdependency of all phenomena, the importance of the distinction we usually make between ourselves and other living beings lessens. Such an attitude views the world as a vast interdependent field, in which no life form, no matter how insignificant it may seem, is an outsider. There is a state of connectedness and interdependence of all phenomena. The significant realization that there is no independent ‘self’– that the perception of ‘self’, of ‘me’, of ‘mine’ is only an egotistical representation, therefore leads every person to inter-dependently co-exist. Undercutting the usual ignorant anthropomorphic view of the validity of the successful domination and control of the environment by humans, naturalist Aldo Leopold claimed that, ‘The biotic (life factor) mechanism is so complex that its working may never be fully understood.’ There is a deeper ecology that recognizes the inherent worth of other beings aside from their utility.

Another writer who expressed a similar deep view of ecology was R.G.H. Siu:

‘The term Ecology, as used locally, does not have the connotation of the “environment” as used in America. There is no separation of man and his environment; rather there is a fusion of man and his environment. Ecology represents the study of the ecological entity as a whole. When a given ecological complex appears unfavourable from the standpoint of man, for example, he does not have a prior claim to adjustment on the part of the other elements of the complex. The others have just as much “right” to demand modification of his behaviour as he has on theirs. All are one in Nature. There is an appreciation of this Oneness and the delicate interrelationships of its diffusions.’

So humans are not an isolated island in a sea of existence, but rather their being is shared ultimately with all. This becomes a clear and apparent relationship with all existence through the Buddha’s teaching of anatta.

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BioTensegrity – body mechanics

14 Dec

Included here are a compilation of several articles on a really interesting as a model of biologic structures. These articles (edited for space reasons) by Stephen M Levin MD and others that hit on some key points.———————————————————————————

The Mechanics of Martial Arts

Eastern philosophy has not had a physical model for martial arts that a western trained mind could wrap a thought around. That is, not until biotensegrity.

The symbol of strength for western culture is the Greek god, Atlas. After a mythical war between the Olympians and Titans, Atlas, one of the losers, was condemned to stand as a pillar and support the universe on his shoulders for all eternity.

Following this model, strength, in western thought, is characterized as a rigid, unyielding and unmovable column. Western thought has the rigid column, the lever, and brute force, all concepts familiar to us since childhood when we built our first stack of blocks, rode a seesaw and smashed our first toy. In eastern thought, strength comes from deep within and is flexible, yielding and mobile; it flows. This difference in philosophy of strength is expressed in a difference in approach to combat sports. But eastern philosophy has not had a physical model for martial arts that a western trained mind could wrap a thought around. That is, not until biotensegrity. Biotensegrity is a mechanical model of biologic structure and function based on construction concepts introduced by Kenneth Snelson and Buckminster Fuller in the 1960s. In these models, the compression struts or rods are enmeshed and float in a structured network of continuously connected tension tendons. The shafts constructed by tensegrity networks are as different from a conventional column as a wagon wheel differs from a wire spoked bicycle wheel. Let me explain.

A conventional column is vertically oriented, compression load resisting and immobile. It depends on gravity to hold it together. It can only function on land, in a gravity field. The heavy load above fixes it in place. It must have ground beneath it for support. The weight above crushes down on the support below and the bottom blocks must be thicker and stronger than what is above it. If the spine is a conventional column, the arms and legs will cantilever off the body like flagpoles off a building. Moving an up-right, multiple hinged, flexible column, such as the spine as envisioned in conventional biomechanics, is more challenging than moving an upright Titan missile to its launch pad. Walking and running have been described as a controlled fall, a rather inelegant way to conceptualize movement. It certainly doesn’t describe the movement of a basketball player, a ballet dancer or a martial arts master. In the standard spine column model, the model for mobilizing the spine and putting the body in motion would be a wagon wheel.

In a wagon wheel, each spoke, compressed between the heavy rim and the axle, acts as a column. The wheel vaults from one spoke/column to the next, loading and unloading each spoke in turn. The weight of the wagon compresses the single spoke that then squeezes the rim between the spoke and the ground. At any one time, only one spoke is loaded and the other spokes just stand there and wait their turn. The spoke must be rigid and strong enough to withstand the heavy compression load and short, thick spokes do better than long, thin ones. The rim must be thick and strong, as it would crush under heavy load as it, too, is locally loaded. The forces are generated from the outside to the center. Using the column, post and lintel model, in a standing body, the heel bone would have to be the strongest bone in the body instead of, as it is in life, one of the weakest and softest. Biotensegrity bodies would be like a wire-spoke bicycle wheel. In a wire wheel, the hub hangs from the rim by a thin, flexible spoke. The rim would then belly out if it were not for the other spokes that pull in toward the hub. In this way, the load is carried by the tension of the many spokes, not the compression strength of one. The load gets distributed through the system and the hub is floating in a tension network like a fly caught in a spider web. All spokes are under tension all the time, doing their share to carry the load. They can be long and thin. Even loads at the rim become distributed through the system so the rim does not have to be thick and strong as in a wagon wheel. The structure is omnidirectional and functions independently of gravity. Unlike a conventional column, it is structurally stable and functional right side up, upside down or sideways. A tensegrity structure can function equally well on land, at sea, in air or space. Now think of each cell in the body behaving structurally as if it were a three-dimensional bicycle wheel. Each wheel would connect to each adjacent wheel the cell level, up the scale to tissue, organ and organism, a wheel within a wheel within a wheel.  In this system, all connective tissues in the body work together, all the time. It known, by recent experimental work that all the connective tissue, muscles, tendons ligaments right down to the cells are interconnected in just this way.

The body model would be more like Snelson’s Needle Tower where the bones of the tower are enmeshed in the wire tendons, never touching or compressing one another. Unlike flagpoles attached to the side of a building, the limbs are integrated into the system. The energy flows from deep within the structure, chi, out to the tips of the fingers and toes. The basic building block of the biotensegrity structures, the finite element, is the tensegrity icosahedron.

We need not go into all the details of the evolution of the biologic body here, but there are some very special properties of the icosahedron that explain the particular characteristics of the biologic structure. It is, mathematically, the most symmetrical structure and, in its resting state, is extremely energy efficient. Distorting the shape requires energy and when that energy is released, it returns to its least energy state, a, normally, self-regulating and self-generating mechanism. It is like a spring that, when distorted, will bounce back to its original shape. But it is a very special spring. When a steel spring is in its resting state, there is no energy storage. Adding a weight, say a kilo, will stretch the spring a defined amount, say 10cm. Each additional kilo will stretch the spring an additional 10cm. When the spring is released, all the stored energy is immediately released and the spring will snap back. If it is not restrained, it will bounce because of the accelerated motion. And, depending on how springy elastic it is, it will bounce and bounce and bounce, jerking up and down. This is the type of spring associated with the standard column, post and lintel construction of the body in western mechanics and is characterized as linear behavior.

The icosahedron, tensegrity spring is different and characterized as nonlinear. In the resting state, there is always some residual tension or tone in the system so it is never completely relaxed. If you add a kilo weight it may distort 15cms. But add another kilo and the distortion may only be 7cms, then 4cms, then 1cm. The icosahedron spring gets stiffer and stronger as you load it.

You can see that as you add more weight a great amount of energy can be stored with very little change of shape of the icosahedron spring. When released, there is not the sudden, total release of stored energy as there is in a linear spring, but a great amount of energy can be released early and the last part can be released slowly and gently; a splashdown rather than a hard landing. This softens the blow and removes the bounce and jerkiness. As noted, not all the energy is released, some remains in storage. Grab onto your earlobe and pull. At first, it distorts easily, but then it stiffens and pulling on it doesn’t change the shape very much. Let go. It regains most of its original shape quickly, but the last bit is very slow. It does not bounce back like a rubber band and slap you on the side of the head. This is often termed in biomechanical circles as visco-elastic as it has properties that in some ways are like fluid and in other ways, like a stiff elastic spring. In biologic bodies with bones, the stiffest icosahedrons are the bones and the most energy can be stored there. When compressed or expanded the movement of the icosahedron is helical, like the threads of a wood screw, and this is consistent with what we know of normal body movement. When it behaves as a stiffening fluid, it becomes a shock absorber, soaking up the energy rather than focusing it.

Those of you who are martial art practitioners already know you don’t stand stiff and upright but move in all directions like a break-dancer. You know that the energy flows in and out from deep within the system and that you can bring energy up from the squishiness of your cells out to harden on the tips of your fingers. Your body is never completely flaccid; some tone always remains in the system. To get the maximum energy you screw yourself down and then explode with tremendous force from within, but never overshoot your mark. Pulling the force from deep within your structure is recruiting the entire body mass. Newton’s second law of motion is force equals mass times acceleration F = ma. Imagine the difference if a small car moving at 5MPH strikes your automobile or a bus moving at 5MPH strikes your auto; quite a difference. Consistent with that law, striking a blow with your whole body creates a greater force than just striking with your fist, as you are increasing mass. In the standard post and lintel model, the arm and fist are just hanging off the body mass and operate independently of it. In a conventional boxers blow, speed a is all-important as the mass m is mostly the fist, in the biotensegrity model, the entire body mass is involved. When absorbing a blow, it reverses the process by soaking up the initial force, distributing it, and then gradually stiffing at the cellular level where the cells, rather than all the resistance landing on a local area. The bone breaking impact, rather than focused where the blow landed, will be he resisted by all your cells in a wave that spreads from the impact site to a wall of billions of cells throughout the body, acting as perfect hydraulic shock absorbers, take up the blow. You go with the flow. Much of what seems unexplainable about the forces generated in martial arts are readily explained when the body is understood as a biotensegrity structure rather than as the common western post and lintel model.

The concept that the body is a tensegrity structure is not just a convenient model for martial arts practitioners. A turf toe injury in a quarterback will keep him from throwing a long pass.  The quarterback throws from his foot, not just his arm. We know that biologic tissues characteristically behave as nonlinear and visco-elastic material. In fact, this nonlinear behavior has been felt to be an essential quality of living tissue. Different researchers in different parts of the world have demonstrated evidence that the entire fascial network is interconnected so that a continuous tension network is known to exist within the body. We also know that at least some of the joints, like the shoulder girdle, transmit their loads through the tension of the soft tissue and not the compression of the bones. There is mounting evidence that this is the way all joints work. It is difficult to let go of concepts that have been part of us since childhood. The post and lintel lever system have intuitively been our model of how the body mechanically functions. On the other hand, we really know better. Just watch any child first learning to throw a ball. Our first throws are done as if the arm is a separate structure, detached from the body. We soon learn that to throw a ball, you must put your whole body into it as the football quarterback does. We just never had a model to understand what we were doing. Biotensegrity gives us that model.

2010 Stephen M Levin, medical director of the Mount Sinai Irving J. Selikoff Center for Occupational and Environmental Medicine, 

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Dr. Stephen Levin’s research in Biotensegrity holds the view that the body is a tensegrity truss system with tension members provided by a matrix of connective tissues, ligaments, muscles, blood vessels, nerves and fascia.

In this model, the bones are considered as spacers, not weight bearers along with incompressible fluids giving shape and form to a soft tissue entity.

Water in its structured form is enclosed in the body in fascial compartments. It helps to provide shock absorption and holds the shape of a tissue. The different densities of liquids contribute to their form as either a sol or gel.

Therefore, as we move from liquid state to a denser tissue determines how the tissue reacts. This effect carries on through all tissues from fascia to bone.

Polymers are clusters of molecules that again have tensegrous properties. When polymers are in fluid solution, they can withstand great pressures.

As a polymer, the fluid in the synovial sacs prevents the approximation of bones during weight bearing and their shock absorbency. This concept was researched by Dr. Levin in the mid-1970s.

During an orthoscopy of a knee under local anesthesia, he kept the patient standing in a weight-bearing posture through the support of a tilt table. His findings demonstrated that as long as the ligaments were held intact then the joint surfaces of the knee crura could not be approximated.

Under Newtonian principles of weight-bearing structures, this would never be possible. These same principles apply to all structures and tissues in the body. In the visceral system, the organs must position themselves in a closed fluid system. Some organs are held in place by the aid of negative air pressure suction and others by fascial and ligamentous attachment.

They are subjected to the forces of compression and tension as we move around and as the organs function as air or fluid movers or digesting foods. The weight bearing and movement behaviour of organs are known as turgor. In this model, the organs can expand and have mobility and motility qualities and interact with all their peripheral attachments.

The serous fluids that lubricate the space between organs allow an omnidirectional fluid shape sharing ability. When this fluid has the quality of a gel it acts as a buffer or spacer and a shocked observer. Stresses are absorbed through the tension members of the fascia supporting and surrounding the organs.

The fascia is a connective tissue forming a continuously interconnected system throughout the living body. It’s formed of liquid crystalline material and has the property of acting as a semiconductor. When fascia is moved, it produces tension under pressure, which generates a piezo electric field. Piezo-electricity comes from the Greek meaning pressure electricity. Oschman, J

 Stress to tissues can result in a crystallizing of the tissue turning a gel state to a sol. This affects the viscosity of the fluid to a restriction of the normal mobility of two adjacent structures. This can restrict the movement of an organ resulting in its immune response and function being impaired.

This impoverishment can result in many symptoms on its downward spiral towards pathology.

Standard methods of evaluating the body were based on Newtonian physics but this model does not fit our upright bipedal movement against gravity.

Newtonian physics can measure and calculate the strength of structures and the stresses they become subject to.

Unfortunately, the body is still reviewed and described in outmoded mechanical anatomical terms. Until the concept of Biotensegrity, the laws describing anatomical movement were according to Newtonian principles.

The cells that make up the soft tissues in the body arrange themselves into geometric shapes that just keep repeating themselves.

When cells gravitate together, they are subjected to natural laws governing their grouping and shape. The law of closest packing is the most economical way of stacking organisms.

If you stack a number of balls in a box there will be space between the balls. In the law of closest packing, the balls could be arranged to fit as tightly as possible into the case. In the closest arrangement, you end up with forms of icosahedron shapes.

Because there are actually no joined structures the icosahedron is quite unstable. This

results in the icosahedron oscillating and generating an energy field. Levin. S

In the study of Biotensegrity, the smallest components of bone or tissue arrange themselves as icosahedrons. Icosahedrons form structures that can withstand compression or tension in any direction. They can stack to make large structures like a beehive construction.

 In a tensegrity structure, compression elements float in the interspace of the tension wires. In the body, this would relate to the vertebrae in the spine. Each subsystem (vertebrae, disc and soft tissue) would be a subsystem of the spines metasystem, like the beehive analogy.

When viewed in this way you can understand their role in balancing tension and compression when stress is applied to the human frame. Extracts from Spine state of the Art Reviews Vol , No 2, May 1995, Hanley and Belfast, Philadelphia, Ed Thomas Deman M.D

Loads applied to the body distribute their pressure through the network of tension elements to create a balance. Even a pressure load to a small bone will distribute the load through the whole system.

A natural movement strategy in tensegrity truss architectural form is the closest explanation of nature’s laws at work in the human frame.

Bones floating in compression, tension network can form into trusses and extend out from the body like a bridge. This makes the body a weight mover, not a weight bearer. So in walking and especially when you are on one leg, the balanced tension maintains the integrity. Hatsumi says that you must learn to float in your walk. Hatsumi (2003).

The ligaments and soft tissues are constructed with soft viscoelastic materials that behave non linearly Journal of Mechanics in Medicine and Biology Vol 2,3 and 4, 375-388 World Scientific Publishing Co.

The difference between a mechanical structure and a human in motion is this non- linear flexibility of choice in movement.

In Newtonian physics, a four-dimensional universe is often described as a giant clockwork in three-dimensional space manifesting linear processes in time Power Vs Force D, Hawkins.

In other words, movement of a structure is determined by a concept of causality.

One-step sequentially leading to the next in mechanical formation.

The human frame is not ruled by this concept and is capable of nondeterministic, omnidirectional change inside of movements. This is like changing the formation of a step when you realize you are going to trip.

Pressure does not act locally on the tissue or follow a specific anatomical route along muscles or fascia. It follows to the depth of the tissue change and can act in a non-linear dynamic way that matches the tension/compression changes to the damaged tissue. This is brought about by the ability to palpate deeply into tissue without force feedback being a resistant force.

 In the art of Shinden, he told us that our energy or intent must come from the heart to our thumb to instigate the change. My initial understanding of this concept was to be sincere and benevolent or your intent to initiate healing in the client.

Although this is important, more recent research has demonstrated that the heart is the main generator of electricity in the body in the form of energy. Science also tells us that energy can neither be created nor destroyed, only converted.

In the visceral approach, you are focusing on the tension of fascia around the organs. We need to integrate the concept of one point approach to a tensegrous structure changing sol to gel in the tissue matrix.

Dennis Bartram November 2004

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The mechanical anatomy of a cell  In trying to reestablish a physical view of biology, Ingber has shown that cells, far from being formless blobs, use tension to stabilize their structure. And he has demonstrated, through two decades of experiments, that tensegrity not only gives cells their shape, but helps regulate their biochemistry.

Every cell, Ingber notes, has an internal scaffolding, or cytoskeleton, a lattice formed from molecular “struts and wires” not unlike the rigid tubes and tensed cables of Snelson’s sculptures. The “wires” are a crisscrossing network of fine cables, known as microfilaments, that stretch from the cell membrane to the nucleus, exerting an inward pull. Opposing the pull are microtubules, the thicker compression-bearing “struts” of the cytoskeleton, and specialized receptor molecules on the cell’s outer membrane that anchor the cell to the extracellular matrix, the fibrous substance that holds groups of cells together. This balance of forces is the hallmark of tensegrity.

Tissues are built from groups of cells, which Ingber likens to eggs sitting on the “egg carton” of the extracellular matrix. The receptor molecules anchoring cells to the matrix, known as integrins, connect the cells to the wider world. Ingber’s group in Children’s Vascular Biology Program has shown that a mechanical force on tissue is felt first by integrins at these anchoring points, and then is carried by the cytoskeleton to regions deep inside each cell. Inside the cell, the force might vibrate or change the shape of a protein molecule, triggering a biochemical reaction, or tug on a chromosome in the nucleus, activating a gene.

Ingber says that cells also have “tone,” just like muscles, because of the constant pull of the cytoskeletal filaments. Much like a stretched violin string produces different sounds when force is applied at different points along its length, the cell processes chemical signals differently depending on how much it is distorted.

“A growth factor will have different effects depending on how much the cell is stretched,” says Ingber. Cells that are stretched and flattened, like those in the surfaces of wounds, tend to grow and multiply, whereas rounded cells, cramped by overly crowded conditions, switch on a “suicide” program and die. In contrast, cells that are neither stretched nor retracted carry on with their intended functions.

Location, location, location Another tenet of cellular tensegrity is that physical location matters. When regulatory molecules float around loose inside the cell, their activities are little affected by mechanical forces that act on the cell as a whole. But when they’re attached to the cytoskeleton, they become part of the larger network, and are in a position to influence cellular “decision-making.” Many regulatory and signaling molecules are anchored on the cytoskeleton at the cell’s surface membrane, in spots known as adhesion sites, where integrins cluster. These prime locations are key signal-processing centers, like nodes on a computer network, where neighboring molecules can receive mechanical information from the outside world and exchange signals. “Adhesion sites are what’s important for major control of the cell,” Ingber says. “If you’re in one of these sites, you’re hooked up to a bunch of players, both mechanical and chemical. You can affect these players, which in turn affect a bunch of other players.”

Ingber offers the example of the oncogene src, one of the first genes known to cause tumors. This mutated gene doesn’t shut off – it sends unrelenting chemical signals telling the cell to grow. “But what’s interesting is that src is normally found on the cytoskeleton in the adhesion sites, near its signaling partners,” he says. “To produce a cancerous transformation, it must be at these sites because it needs to be integrated within the structure of the cell.”

Disease mechanics Based on these observations, Ingber believes that genes and molecules only partially explain disease origins. In fact, he asserts that many medical conditions are caused by a mechanical failure at the cell and tissue level. Examples include congestive heart failure, where the heart muscle loses its elasticity and becomes “floppy,” thus losing its pumping efficiency; and asthma, where changes in tissue mechanics cause the airway to stiffen, tighten and contract, increasing mechanical resistance and constricting breathing.

But often the mechanical basis of a disease is not so obvious. On an airplane not long ago, Ingber found himself sitting next to Jing Zhou, a researcher from Brigham and Women’s Hospital, who told him about her work on polycystic kidney disease, or PKD. In children with PKD, huge cysts form in the kidney tubules, eventually replacing much of the mass of the organ itself, and causing the kidneys to fail. Zhou’s lab had found a gene linked to PKD and localized it to a thin antenna-like structure sticking out of the kidney cell, known as the primary cilium. But she had no explanation for the finding.

Ingber pointed out that the cilium is designed to sense mechanical forces ¨ in the case of the kidney, the shear stress caused by urine flow. Normally, the force of the flow bends the cilium, triggering calcium to rush into the cell. He suggested to Zhou that perhaps cells affected by PKD have a faulty calcium signal and constantly “think” that shear stresses are high. This in turn might cause the tubules to enlarge more and more to accommodate the flow, eventually forming cysts. From this serendipitous meeting, a collaboration was born, and together, Ingber and Zhou showed that when the PKD-causing genes are disabled in mice, the “lever” of the primary cilium malfunctions and fails to trigger a normal calcium response.

Scientific heresy? Ingber has worked hard to defend the notions of cellular tensegrity and mechanical forces regulating cellular biochemistry. He recalls being publicly attacked while presenting at scientific meetings. But he also remembers an eminent scientist telling him, “If you’ve got them that upset, you must be on to something important.” And so Ingber returned to the lab bench. “I responded to my critics by devising experiments,” he says.

In 1993, his team reported in Science that when they used magnetic forces to literally twist the integrin receptors at the cell surface, the cytoskeleton stiffened in response to the stress and behaved like a tensegrity structure. In 1997, the team reported in the Proceedings of the National Academy of Sciences that tugging on the same integrin receptors causes changes in the cell nucleus. In 2000, a study in Nature Cell Biology demonstrated that mechanical stress at the cell surface causes the release of chemical signals inside the cell that kick genes into action. Tweaking receptors not linked to the cytoskeleton had no such effect. Other experiments have altered the extracellular matrix – making it alternately rigid or flexible – and documented effects on cell signaling and gene expression.

Nanotechnology and beyond Ingber’s study of tensegrity’s role in disease has helped him forge some unexpected connections. In 2003, he worked with Harvard physics professor Eric Mazur on a nanotechnology project, using a laser to obliterate a minuscule portion of a cell, a few billionths of a meter in size, without affecting surrounding structures. Ingber got involved because he sees the laser as a tool for cutting out a single structure in a living cell to explore its mechanical role. He has also delved into systems biology, a new field that uses computational approaches to explore how molecular parts organize themselves into a system whose properties cannot be predicted by the parts alone. Informed by tensegrity, Ingber hopes to understand how structural, mechanical, chemical and genetic factors combine to govern cell behavior.

He has also helped devise new approaches to tissue engineering, and even posits that tensegrity helps explain the origins of life. Observing that viruses, enzymes, cells, and even small organisms take geodesic forms like hexagons and helices, Ingber suggests that tensegrity is nature’s way of creating strong, stable life forms with minimal expenditure of energy and materials.

“Tensegrity has given me a path that goes deep and broad,” Ingber says. “I believe the greatest value comes when you cross barriers and boundaries and get a new perspective and vantage point. I’m not afraid of following my own path.” Nancy Fliesler 2005

All copyright held by authors cited in this compilation of articles

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quotes about Unity of mind/body, consciousness, universe, 6th sense,synchronicity,choice, intention

14 Dec

..an order parameter isomorphism connects mind and body, will and brain, mental and neural events. Mind itself is a spatiotemporal pattern that molds the metastable dynamic patterns of the brain. Mind-body dualism is replaced by a single isomorphism, the heart of which is semantically meaningful pattern variables…. we sould take Sherrington’s “enchanted loom” image of the brain very seriously indeed.         To provide a comprehensive online resource for those interested in learning about a sixth sense we call the squiggle sense. Why? Although all human beings possess the squiggle sense, most are unaware that they do. JA Scott Kelso  

Choice is the degree of freedom of potential action of a quantum coherent organism which is maximally spontaneous and free.  Rodger

The “self” is a representation of the autopoietic  life experience of the quantum coherent human organism. Rodger

The “mind” is not distinct from the body. There is no mind/body dualism. The mind is the embedded consciousness of the quantum coherent organism. Therefore, the “mind” is intimately responsive to the physical aspects of the body-at all levels. Rodger

Intention is the innate autopoietic matrix of the quantum coherent organism. Rodger

Can’t have our cake and eat it too: The price we pay for living/activity is the arrow of time. Rodger  

Consciousness emerges as a manifestation of the dissipative quantum dynamics of the brain. Professor Abrams

What does all this mean for consciousness? It simply means that reality, as empirically and mathematically demonstrated, does not exist in terms of a separately existing thing from which we take data. It means that reality is a question of a great number of configurations in which consciousness, the measuring device, and the thing measured exist in a configuration in which consciousness is an innate and intimate element. It means,… that consciousness is a necessary and original aspect of the universe as a whole and that consciousness is not merely an epiphenomenon piled on top of some material complexity, but that it was always already there in some aspect yet to be determined; … it means that the intuition of Nietzsche, the cosmic will to power, as described in Beyond Good and Evil, section 36, reflects a quantum mechanical view of the world. Nietzsche’s BGE 36 does nothing less than raise the question, consistent with the cosmology of his cosmic will to power, of the inseparability of perception from the material-energetic universe, a world which is not really external anymore–… it is, I believe, the most astonishing page in the history of philosophy… This is an ontology in which the stuff of the universe, whatever we may call it, has the element of consciousness. You cannot understand this statement if you insist on adhering to the idea of local and pre-existing reality for which you have been prepared by 2500 years of Platonism. What does this have to do with the macroscopic world? Let us turn to the idea of “coarse-graining”, a good introduction is found in Gell-Mann’s The Quark and the Jaguar. And let us remember that reality exists as a series of configurations and not as pre-existing and absolute local reality on which we will exercise our unprejudiced, scientific method. To put it another way–there are a great number of parallel universes and no original created and absolutely existing universe to which we blithely apply the scientific method in order to find out the truth. William Plank

It is clear that in some way, human nature is nature observing itself. This involves a self-referential recursion that must somehow be drawn from the wellsprings of its own nature. Human beings can be thought of quite literally as the complementary nature observing itself. This indicates that nature must entail some kind of non trivial self-reference. JA Scott Kelso,DA Engstrom

The universe must be self-reflectively aware of itself as reality-in-itself to manifest the order that is a prior condition for all manifestation of being. Since consciousness in its most narrow formulation for human beings can be defined as self-reflective awareness founded upon a sense of internal consistency or order, we can safely argue that the universe is, in this sense, conscious. Complementary constructs appear to be as fundamental to our conscious constructions of reality in ordinary and mathematical languages as they are to the unfolding of progressive stages of complexity in physical reality. The suggestion is that human consciousness infolds within itself the fundamental logical principle of the conscious universe, and is thereby enabled to construct a view of this universe in physical theory which describes the unfolding of the cosmic order at previous stages in the life of the cosmos.  M Kafatos, R Nadeau

Reality… is pictured as a limitless series of levels which extend to deeper and deeper subtleties and out of which the particular, explicate order of nature and the order of consciousness and life emerge. Synchronicities can therefore be thought of as an expression of this underlying movement, for they unfold as patterns of thoughts and arrangements of material processes which have a meaningful conjunction when taken together. F.D. Peat

In discussing singularity,”…the expansion is better envisaged as that of space itself, carrying the galaxies along for a ride. So when all the matter of the Universe was gathered together, that was because the space between galaxies was shrunk(or rather, not yet expanded). Space itself, and time, were created, like matter, in the big bang; there was no ‘outside’ into which the explosion expanded.”Davies/Gribbin

“In physics, combination of space and time used in the theory of relativity. When developing relativity, Albert Einstein showed that time was in many respects like an extra dimension (or direction) to space. Space and time can thus be considered as entwined into a single entity, rather than two separate things.” Dictionary  

“Within other rhetorical contexts, Dogen goes to equate time with one’s body and mind, ….These kinds of identification between time and the world suggests that space and time are inseparably interconnected and interpenetrate each other. In fact, Faure observes that Dogen’s ontologization of time is simultaneously a spatialization of it.”C.Olson

 “The space/time continuum -A very simple definition: space and time considered together as one entity.”D. Faige

“The views of space and time which I wish to lay before you have sprung from the soil of experimental physics, and therein lies their strength. They are radical. Henceforth space by itself, and time by itself, are doomed to fade away into mere shadows, and only a kind of union of the two will preserve an independent reality.” –Hermann Minkowski

“This being present, that arises; without this, that does not occur.  Everything is interconnected. If you were not, at this moment, and did not tie up or ever tie up all the aggregates or constituents that make you up, then those aggregates or constituents either might not have ever existed, or if they did, would be split up and used somewhere else, bumping everything from where it is to some other place…because if you were not, that is, never existed, then everything and every part that ever proceeded leading up to you being you would not have unfolded the way it has or be where it is or was or be impacted by what you are or have done or will do.”

It (psychological phemomena)is, surely, an ecology(Gibson), a synergy( Haken), a Gestalt(koffka), a coalition (Shaw&Turvey), a communion(Buddhism) – a deep and inextricable interaction between organism and environment (if such a distinction is accepted, for reasons of scientific analysis. P. Treffner

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Fascinating and Mysterious Life

11 Aug

This small project of mine began a few winters ago after I had time to begin to search for some further trends in thinking from some of my previous experiences and research in the area of Buddhism and science. It has turned into a fun and interesting search of ideas which are presented here as quotes. Life ideas are like reading a good mystery novel where the plot twists and turns as you contunue the story and you are never really sure what is the “truth”. While no “truth” is always forthcoming, ‘trends’, patterns, “evidence” starts to appear which create important hypothesis or propositions about the nature of life, reality, knowledge, etc, as well as show the mystery, complexity and strangeness of life. I share those now on my blog(s). I hope you enjoy the thread!                                                                                                                                                                                             —————————————————————————————————————————-

Mystery is not something negative that has to be eliminated. On the contrary, it is one of the constitutive elements of being. B.D’Espagnat  

Not only is the universe stranger than we imagine, it is stranger than we can imagine. A. Eddington

The Big Bang Theory is just a model and is not accepted by all astronomers – although the vast majority of the do accept it. This idea proposes that 14 billion years ago the energy of the Universe was suddenly created, with all the energy required to produce it concentrated into what was essentially a point, a point with no volume referred to by scientists as a singularity. From that point the Universe expanded outwards and 14 billion years later has evolved into what we observe today. The implication of this model is that, at the instant the Universe began, space and time did not exist. One cannot refer to a time before the Big Bang because there was no such thing as time before the Universe began. Again, one cannot ask what the Universe expanded into because the only space that exists is within the bounds of the expanding Universe. … On the basis of the Big Bang theory what was the Universe like at the instant it began? It was an unimaginable concentration of just pure energy – no matter could exist. Then it began to expand and, once this happened, then time and space came into existence. … From the beginning to 10(-12) seconds, there would be no clear distinction between energy and matter and the forces that operated would be of an unfamilar kind. During this period there occurred a rapid expansion … at a speed greater than light. Michael M. Woolfson

Steven Hawking, George Ellis, and Roger Penrose. According to their calculations, time and space had a finite beginning that corresponded to the origin of matter and energy.”3 The singularity didn’t appear in space; rather, space began inside of the singularity. Prior to the singularity, nothing existed, not space, time, matter, or energy – nothing. So where and in what did the singularity appear if not in space? We don’t know. We don’t know where it came from, why it’s here, or even where it is. All we really know is that we are inside of it and at one time it didn’t exist and neither did we. There was no explosion; there was (and continues to be) an expansion. Rather than imagining a balloon popping and releasing its contents, imagine a balloon expanding: an infinitesimally small balloon expanding to the size of our current universe. anonymous

The cyclic universe model *space and time exist forever *the big bang is not the beginning of time; rather, it is a bridge to a pre-existing contracting era *the Universe undergoes an endless sequence of cycles in which it contracts in a big crunch and re-emerges in an expanding big bang, with trillions of years of evolution in between *the temperature and density of the universe do not become infinite at any point in the cycle; indeed, they never exceed a finite bound (about a trillion trillion degrees) *no inflation has taken place since the big bang; the current homogeneity and flatness were created by events that occurred before the most recent big bang *the seeds for galaxy formation were created by instabilities arising as the Universe was collapsing towards a big crunch, prior to our big bang. In the new paradigm, each cycle proceeds through a period of radiation and matter domination consistent with standard cosmology, producing the observed primordial abundance of elements, the cosmic microwave background, the expansion of galaxies, etc. For the next trillion years or more, the Universe undergoes a period of slow cosmic acceleration (as detected in recent observations1), which ultimately empties the Universe of all of the entropy and black holes produced in the preceding cycle and triggers the events that lead to contraction and a big crunch. Note that dark energy is not simply added on — it plays an essential role. The transition from big crunch to big bang automatically replenishes the Universe by creating new matter and radiation. Gravity and the transition from big crunch to big bang keep the cycles going forever.Paul J. Steinhardt

Eventually the universe will become a cold, dead wasteland with a temperature approaching what scientists term “absolute zero”. Professor Priyamvada Natarajan (which contradicts the Cyclic Model)

And so without even quoting about string theory or M theory, the obvious question that goes beyond our present ability of understanding is the question “how did it all begin” or “where did the massive energy that appeared to become our known universe orginate?”, etc.. These questions can also become the fodder for religious thought, ie “God created the Universe” and it can be left at that for at this point science just can’t answer that question. Neither “answer” can be “correct” because science admits it is unanswerable and religion takes it on faith. So, as T. Caryle says, the world is an inscrutable and magical place. Rodger

Wonder is retained by wise pondering.” –Ravi Zacharias

Xuan(Tao) is the dark mystery beyond all mysteries.Han Zhongli

The more I learn, the more I understand that life is amazing, sensitive, responsive, mysterious  and totally interconnected . -Rodger  

It remains admitted that to this day we don’t have a convincing notion of why there is something, why not merely nothing: What “spiritus rectot breathes fire into the equations and makes the universe for them to describe?”- raising the question, what do the laws of nature permit beyond what actually exists? H. Genz  

In the realm of particle collisions and quantum processes, antimatter is produced as often as ordinary matter. In fact, the big bang should have produced equal amounts of both—not a good thing, because each piece of antimatter would destroy an equal amount of matter. The big bang should thus have created universe of only light and energy, free of any solids, liquids or gases. So, some sort of asymmetry occurred that skewed the universe’s evolution toward matter. It would not have taken much—just one extra matter particle for every billion particle-antiparticle pairs. Researchers have discovered an asymmetry between the behavior of matter and of antimatter, called charge–parity violation, which could have skewed things to our side of the material world. But for this subtle bias to translate into an excess of matter, the primordial universe would have had to go through a wrenching period of imbalanced conditions, and so far no one knows how that might have happened.Philip Yam      

We are mounds of quarks in trios, we are proton-and-electron families. …There is but a single family on this planet, just one life-form stretching out its tendrils, testing possibilities as dust and stars did once upon a time. Face it, we are all in this together, microbes, seaweed, starfish, salamanders, humans, every strange extrusion of nucleic acid chains. We are the kin of yeast, the brothers of cockroaches, the sisters of sugar beets, and the cousins of maize. We share a common birthright born of ancient gene-and-membrane teams. All of us are children in the clan of DNA. Howard Bloom

The most beautiful thing we can experience is the mysterious. It is the source of all true art and all science. He to whom this emotion is a stranger, who can no longer pause to wonder and stand rapt in awe, is as good as dead: his eyes are closed. –Albert Einstein  

The religion of future will be a cosmic religion. It should transcend a personal God and avoid dogmas and theology. Covering both the natural and the spiritual, it should be based on a religious sense arising from the experience of all things, natural and spiritual as a meaningful unity. Buddhism answers this description… If there is any religion that would cope with modern scientific needs, it would be Buddhism. perhaps Albert Einstein

A human being is a part of the whole, called by us the “Universe,”a part limited in time and space. He experiences himself, his thoughts and feelings as something seperate from the rest – a kind of optical illusion of his consciouness. This delusion is a kind of prison for us, restricting us to our personal desires and to affection for a few persons nearest to us. Our task must be to free ourselves from the prison by widening our circle of compassion to embrace all living creatures and the whole of nature in its beauty. Nobody is able to achieve this completely, but the striving for such achievement is in itself a part of the liberation and a foundation for inner security. Einstein

We know from science that nothing in the universe exists as an isolated or independent entity. M.Wheatley

The most important scientific revolutions all include, as their only common feature, the dethronement of human arrogance from one pedestal after another of previous convictions about our centrality in the cosmos.S.J.Gould

This world, after all our science and sciences, is still a miracle; wonderful, inscrutable, magical and more, to whosoever will think of it. T. Carlye

What is the mind of ours? Last week’s potatoes!…The atoms come into my brain, dance and dance and then go out-there are always new atoms but always doing the same dance, remembering what the dance was yesterday.  RP Feynman  

“… all those who apprehend the single significant whole, or experience cosmic religious feeling, with or without the awareness of the existence of the principle of cosmic order, are engaged in similar acts of communion with the Whole. Yet any translation into conscious content of that experience , in scientific or religious thought, invokes reductionism where it cannot be applied. …all knowledge in the conscious content is a differentiated system that cannot by definition articulate the universal principle of order. Just as there can be no one-to-one correspondence between physical theory and physical reality, there can be no such correspondence between religious descriptions of beings and Being itself.” and ” … conceiving of a human being, as Einstein put it, as “part of the whole” is the leap of perspective that will prove most critical. It is only in making this leap that we can begin, as he suggests, to free ourselves of the ‘optical illusions’ of our present conception of self as a “part limited in time and space”, and to widen “our circle of compassion to embrace all living creatures and the whole of nature in its beauty”.  and ” The central problem… has been trying to “prove” the existence of Being when it can never be proven because of its inherent undivided wholeness. Being neither requires or permits “proof”. It merely is, and accepting this abundantly obvious fact can provide a “foundation”, as Einstein put it, ‘for our inner security.’ …the description of the parts cannot disclose the existence or nature of the Whole. Yet one cannot, of course, merely reason or argue oneself into an acceptance of this proposition. One must have the capacity for what Einstein termed ‘cosmic religious feeling.’  Hopefully many of those who have the capacity will also communicate their awareness to others in metaphoric representations in ordinary language with enormous emotional appeal. …As described by Jonas Salk: ‘…By using the processes of Nature as metaphor, to describe the forces of the Cosmos by which it operates upon and within Man, we come as close to describing ‘reality’ as we can within the limits of our comprehension. Men will be very uneven in their capacity for such understanding, which, naturally, differs for different ages and cultures, and develops and changes over the course of time. For these reasons it will always be necessary to use metaphor and myth to provide ‘comprehensible’ guides to living. In this way, Man’s imagination and intellect play vital roles in his survival and evolution’.” from The Conscious Universe  

“The whole is something else than the sum of its parts” K. Koffka

The usual conception of the world is that matter is “embedded in” space and time. …this cannot be the case. There are many factors which indicate that reality is “projected onto” space and time. … The picture and also its frame, space-time, are located in the mind of the observer….the fact that reality is not embedded in space-time but is rather projected onto space-time. …space-time is not installed in the brain as a definate system but it is only “inserted” if there is actually something to be portrayed or represented, i.e., when our sense organs register objects and processes from the reality outside. W. Schommers  

I am therefore inclinded to think that “the Real” – alais human-independent reality- is not embedded in space-time. And, indeed, I go so far as speculating that, quite on the contrary, the nature of space-time is… not “noumenal” but “phenomenal”, that space-time is a “reality-for-us.” B.d’Espagnat  

Time is a dimension in the domain of descriptions, not a feature of the ambience. H.Maturana

According to classical physics, the universe consists of bodies in space. We are tempted to assume, therefore, that we live in a physical world consisting of bodies in space and that what we percieve consists of objects in space. But this is very dubious. J.J.Gibson

Most of us still think like Newton, regarding space as sort of a vast container that has no walls. But our notion of space is false. Like time, space is neither physical nor fundamentally real in our view. Rather, it is a mode of interpretation and understanding. It is part of an animal’s mental software that molds sensations into multidimensional objects. time does not exist independently of the life that notices it. Robert Lanza and Bob Berman  

The concept of time cannot actually be understood. We are accustomed to thinking that time is something which can be found or which one has. But it actually has no existence. The physicist says time is something that can be measured in one way or another by a clock. But what does the clock measure. Nothing but time!E. Dammann   

In recent years many planets have been found around nearby main-sequence stars, all of the Population 1 variety, and it is generally accepted that the material of these planets will have come from the same source as that which formed the parent star. This is how the material that formed our world came into being – its atmosphere and solid substance, the biosphere and everything within it, including us. An eminent American astronomer, Carl Sagen (1934-96), a great expositor of popular science, once described humankind as being evolved from star stuff. How right he was! Look around you- look in a mirror. All the matter that you see, living and non-living, has been through the violence of several supernovae, and may do so many times more in the distant future. Michael M Woolfson  

Unknowingly, we plow the dust of stars, blown about us by the wind, and drink the universe in a glass of rain.–Ihab Hassan  

What is life? It is the flash of a firefly in the night. It is the breath of a buffalo in the wintertime. It is the little shadow which runs across the grass and loses itself in the sunset. Crowfoot, Blackfoot warrior and orator 1830 – 1890 

So, I don’t really know how to justify my love for the electron. Perhaps it is because an electron has no location. Electrons interact via the electromagnetic field, aka the photon. All the electrons in the universe and all the photons in the universe are talking to each other all the time. They are all connected, no matter how far apart, by the electromagnetic field, which has infinite range.Jon Butterworth 

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