Circle Triangle Square and Symmetry redux

Posted on February 19, 2017 by zengut under Buddhism, Math, Science

This is a combination of two earlier posts that seem to have been popular. I combined them and tweaked them a bit and posted it on the Hazy Moon website some months ago. This is a further tweaking, with only some minimal changes. But since those earlier posts still get a fair number of views, I thought I would make this improved version more available.

It is said that “Let no one who is ignorant of geometry enter” was inscribed over the entrance to Plato’s Academy (which lasted for centuries after his death). The Pythagoreans (of Pythagorean theorem fame) made a religion of mathematics; it is rumored that they killed someone who pointed out that the square root of two was what we now call an irrational number (that is, after the decimal point the numbers never end) because the idea didn’t fit in with their model of an ordered, clean, rational mathematical universe!

Now, while the Greeks had some philosophical tendencies that overlapped with Buddhism (the skeptic founder Pyrrho went to India with Alexander the Great and studied Buddhism and the Stoics were into non-dualism and had many teachings and attitudes compatible with Buddhism), that is not why I bring up how far back the Western appreciation of mathematics reaches. I do so because it is so foundational to modern scientific thinking. Scientists consider mathematics the language of science. In fact, there are modern scientific “Platonists” like Hawking, Tegmark, and Penrose, who have written popular books and are top theoreticians in physics, who believe that we don’t need experimental evidence for their claims about reality. Rather, they believe that mathematics IS reality in its purist form! Mathematics is itself scientific evidence.

So where are they coming from and why do I think you might find it interesting if you are a Buddhist with little or no interest in Math or science? Because scientists and mathematicians argue about whether mathematics is something we invented or discovered. Because scientists are blown away by what has been called the unreasonable effectiveness of mathematics in predicting and describing scientific discoveries. Often the math was developed just for the sake of the intellectual challenge of it with no immediate practical application in mind, but then later turned out to be just the thing to use for modern science. But mostly because I see a lot of interesting overlap between what blew the minds of the Ancients both East and West and modern math and science.

Lets look at a Chinese Chan poem and then a Japanese Zen painting to see what I mean. Don’t worry if you hate math. Math is not about numbers. It is about relationships and ideals. I’ll draw you pictures.

Anything that we can experience as existing in time and space (that is, the realm of the senses) is in the realm of the “relative,” and whatever is true regardless of time and space is in the realm of the “absolute.” There is a tension between the relative, the relational, the contingent, the deep and abiding interconnectedness and interaction of what is in time and space, and the absolute. Zen practitioners know I didn’t come up with this terminology. There is an ancient Chinese Chan poem that we chant in some of our services. In Mandarin it is called Cantongqi, in Japanese Sandokai. The poem was written by Shitou Xiqian (Japanese: Sekito Kisen). Shitou lived in 8^th century China. The title of the poem is apparently very difficult to translate: “The Identity of Relative and Absolute” is the version we use at the Hazy Moon Zen Center, and I like the kind of mathematical sound and unapologetic nature of “identity.”

Books have been written and series of talks given about this poem. This poem, this relationship between the finite and infinite, the relative and absolute, change and the symmetry of changelessness, a unified force and all the various pushes and pulls that we experience in the contingencies of our lives, is one of those places where both science and Zen converge in wonder and profundity. Sages, philosophers and scientists have grappled with this throughout the ages. How do we get something from the ultimate oneness to the many things, how is there the illusion of duality if at the heart of the matter non-duality must be how it is. For certainly even scientists have some idea of non-duality. Think of the quest to unify the forces of nature. How can there be nature and something else?

The identity, or some say the harmony, of the world of the relative and the realm of the absolute is not very amenable to the intellect, to concepts and language, which evolved in the dualistic world of the senses, or even to mathematics, which gets lost in infinities. We can use some ideas from mathematics, at least as metaphors, even if just to get us started. We’ll do this by looking at the universe embodied in the circle, and to do that, lets look at symmetry and the breaking of symmetry.

There are many types of symmetry. You can see mirror symmetry in the fluke of a whale. The right half of the fluke is the mirror image of the left, and visa versa. That is why the water is so evenly dispersed in the photograph of the fluke. Such symmetry is very functional for the diving whale. An asymmetric fluke would not work as well to stabilize the whale when she dives.

One definition of symmetry is that you have a symmetry when something is done to a system but you can’t detect a change.

If you moved this “wallpaper” over a bit to the right or left by the distance of one of the partly hidden circles, it would still look the same as long as you don’t see a tell tale edge. Pretend the square is a window with a much larger wall with the wall paper pattern on it behind the window. Move the wall, or the window, the distance of one circle to the left or right and your view through this square window is unchanged; you see the same pattern. That is a kind of translational symmetry; you translated its position without a directly detectable change; you might see other changes if you measured them, like the heat in the room from the movement and your muscles burning fuel when you shifted the pattern, or the flow of electrons in the computer if you used one and did this as a “virtual” experiment.

The conservation laws of physics are also defined by symmetry. When we say the total energy of a system is constant, that is, that energy is “conserved,” we are saying the total energy is the same before and after you do something to the system (an experiment, say).

Look at the energy of the system before the experiment, and then close your eyes while somebody else does the experiment. When you look at the total energy of the system (including any added or subtracted, say by heating or cooling during the experiment) when you open your eyes after the experiment is done, you can’t tell there was any change in the total energy (even if the form of energy has changed, say form electrical energy to heat or the potential energy of the position of some object relative to another); it passes the “can’t tell” test that defines symmetry.

Actually we can’t measure total energy directly (the slippery nature of energy is another discussion, but even defining, let alone measuring, the total energy is clearly beyond our grasp). We can measure changes in energy. And that will be zero. If you added energy here, some was lost somewhere there. If not, you have some explaining to do. From a scientific viewpoint that can be where the real action is! A discrepancy in energy accounting could be evidence of a new particle that carried away some of the energy you couldn’t account for (this has happened), or even a new law of physics, although it is more likely you just missed something or didn’t take accurate measurements. So you try again, and if the difference remains, and it isn’t carelessness or the lack of sufficiently sensitive instruments, then you really may be on to something new! Why is energy conserved? That’s a bit far afield from this discussion, but I think it has to do with being beginningless, bottomless, endless, and uncreated.

The point is, energy is conserved and any discrepancies need to be addressed. The conservation of energy is a form of symmetry, and it is very useful.

Let’s look more closely at just what symmetry is by looking at rotational symmetry as an example. If you close your eyes and I rotate an unmarked circle, when you open your eyes and look at the circle you can’t tell that I did anything; you still see a circle, just like before. Nothing about the circle looks different. This “can’t tell” test is a hallmark of symmetry.

The entity we call a circle is an idea. It is empty of “thingness.” A circle is defined as that object that is equally distant at every point from a central point. This distance is the radius of the circle (think about it; it works!). So all it takes is a distance from a point to define a circle. We call that distance the radius. Yet in fact, no ideal circle actually exists. Even the most close to perfect circle you can create in the world of the relative is marred minimally by quantum fluctuations even of you were to design a circle to the precision of the atomic or subatomic scale.

In Japanese Zen calligraphy there are circles called enso. Of course enso are not perfect circles. They are the product of a brain, a hand, paper, ink and a brush. They are in time and space. This is the identity of relative and absolute at play, the absolutely ideal circle without beginning or end and the relative circle existing in time and space.

A perfect circle doesn’t lend itself to creating the universe of the senses, the realm of the relative. The symmetry is too good. But inherent in that circle is everything that ever was and ever could be. We just need to break the symmetry. When the rotational symmetry is broken, we can produce waves, and these waves define particles, the basis of form.

Open up a circle and you break that rotational symmetry and get a different symmetry that is limited as to rotation, but can be repeated as infinite cycles in all directions in space and time. You get the wave. We can derive that mathematically, but let me just show you a picture:

We take a perfect circle and divide it in half. Now there is direction, duality, up and down. Now move the left tip of that lower half meets the right tip of the upper half of the circle and we get a wave!

You can repeat that wave (essentially rotating the circle or in this example by adding other circles in a line) without ever needing to stop (mathematically). The circle and the wave both have no beginning and no end.

The wave does have symmetry. You can flip it around the point where the two halves of the circle touch and you get the same wave (passes the can’t tell test). But it isn’t the rotational symmetry of the circle it was derived from, the unbroken circle. We broke the never ending, “absolute” rotational symmetry and found a new, more limited symmetry, the wave, which now brings us to the “relative.”

Mathematically we can sculpt waves. Just like additive sculpting (say in clay) or subtractive sculpting (say in marble), we add and subtract waves to get new waves, even crafting a sharp localized spike. That spike is the particle. The really, really relative, the really, really NOT symmetric!

And hidden in a spike, that particle, there can be countless waves adding and subtracting, creating the spike mathematically.

This is Fourier mathematics, looking at the different waves that make up a given wave, and it is the basis of quantum field theory.

In the circle there is the wave, in the wave the particle, in the particle the wave, in the wave the circle.

We have the identity of the relative and absolute, asymmetry and symmetry, and the particle and wave.

[The Tingari by Nanuma Napangardi, of Kintore, language Pintubi.]

The ancients knew about symmetry and symmetry breaking, circle and waves, the identity relative and absolute. Just look at the Yin Yang symbol! You see circle, and broken circle, wave and particle.

They experienced it in their beings, in their lives. That is what it is really all about.

Now lets expand our look at circles and waves by looking at a Japanese Zen painting.

Sengai Gibon (1750-1838) was a Japanese Zen master who was an artist. There are many stories about Sengai. One I particularly like shows his courage and compassion. The Daimyo, the high-ranking Samurai who was the local ruler, loved chrysanthemums. The gardener’s dog destroyed some of his prized blooms and so naturally the gardener needed to die. Sengai leveled the rest of the flowers with is trusty scythe, presenting himself to the Daimyo the next day. Sengai asked to be killed. After all, farmers, who were dying of hunger, were ignored by the Daimyo while pretty plants were valued above a human life.

The Daimyo got the message.

One of Sengai’s most famous works is “Circle Triangle Square.”

There are many interpretations of what this painting is about.

The inscription at the left of the painting alludes to Sengai’s temple, an ancient temple already at that time about 700 years old. It was the first Zen temple in Japan. So maybe the shapes refer to the temple and the pagoda at the temple and some nearby mountain.

Or maybe the inscription is not about the subject of the painting and it is just in effect his signature. Zen masters in Japan and before that China were often identified with and named after their monasteries or the mountains they lived on.

Or maybe the circle is the cushion (zafu) the meditator sits on, the triangle is the mediator with the top point as the head, the solid base of the triangle being the butt and crossed legs. The triangle could be meditator as mountain. The square might be the zabuton, the square pad the zafu sits on (the triangle/meditator/mountain idea was suggested in conversations with sensei Maezen at Hazy Moon).

Lets get Platonic. I would like to interpret the painting geometrically. I have no idea how much geometry Sengai knew. Clearly basic geometric shapes interested him enough to paint them.

So circles are amazing but where do squares and triangles come in? Lets start with how a square and triangle relate. A square is two triangles.

Next, how do circles and squares relate? Well, they could be symmetric as to area. That is, they can both have the same area despite having different shapes. That is a very useful equivalence in math and physics. Using the tools of integral calculus, which helps us deal with the areas of complex shapes, we can find “hidden” symmetries and so hidden relationships. Here is another way squares and circles can relate to each other that I like: every circle precisely defines two squares, each of which intersects with the circle at four points. One square is inside, the other outside the circle. Every square likewise defines exactly two circles, each circle intersecting with the square at four points:

Those then define two larger and smaller squares and circles ad infinitum.

Now, how do circles and triangles relate and how do they make waves?

We can think of the circle as a clock face. This time we will think of the radius that defined the circle (that distance that all points were from the center point) as a minute hand, here pictured as arrows. For this illustration the minute hand will go counter-clockwise, starting at the 3 o’clock position (hey, why not?). As we rotate this minute hand radius counterclockwise we will note how high the tip of the arrow is above or below the horizontal line bisecting the circle.

Next lets put each vertical line (the distance of the radius above or below the horizontal bisecting line) along a new horizontal line, with each clock hour marked, starting at 3 o’clock and going counterclockwise (3 o’clock, 2 o’clock, etc.) around the circle/clock. Even with just a few straight lines we see a wave emerging if we connect the tips of the arrows:

In this figure we placed the vertical lines derived from the tip of the radius above and below the horizontal line at their clock positions in the circle, as marked on the horizontal line, and connected the tips of the arrows with lines and got a rough wave. More lines would get a smoother curve, a smoother wave.

If we were to add so many arrows (each a radius of the clock/circle, that is, the distance from the center point that defined the circle) and the resulting vertical lines from the tip of the arrow to the horizontal bisecting line so that the circle is filled with lines and arrows we would get a perfectly smooth wave. In the ideal, mathematically pure case, a perfect wave, unlike the complicated messy waves of contingency we see at the beach.

What is this wave?

Each arrow is a radius of that circle. It also is the hypotenuse (the longest side) of a right triangle (and why not? Any line can be turned into a hypotenuse by adding two other lines!).

Here is one radius arrow and the horizontal line isolated (with a line connecting the tip of the arrow to the horizontal) to show that each arrow indeed defines a specific right triangle:

This figure shows one of the triangles defined by the arrow (radius) and the line from the tip of the arrow to the horizontal bisecting line and the segment of the horizontal line that goes form the center of the circle to the line dropped form the tip of the arrow, making a unique right triangle. The circle can have as many of these triangles as you wish as the radius, the arrow, now the hypotenuse of a triangle, points to different parts of the circle.

Now, lets say the arrow/radius/hypotenuse is one unit long. It doesn’t matter one unit of what. A unit could be one inch, one mile, one light year, one unit of 6.753 millimeters or 5.071 kilometers, or even one diameter of an oxygen molecule (although that may be subject to quantum fluctuations). It doesn’t matter a single unit of what; are all kosher as long as all other measurements that relate to that unit length, say of the other sides of the triangle, are measured in a way that is related to that basic unit (in multiples of inches, of miles, of light years, of 6.753 mm, 5.071kilometers, of diameters of oxygen molecules, etc.).

Then we can define a specific relationship between the lines of the triangle and give it a name: the sine of a right triangle is defined as the length of the side opposite an angle (other than the right angle) over (that is, divided by) the hypotenuse. It is a ratio, so there no need to worry about units of measurement as any units are on the top and bottom of the ratio, so they just cancel. This ratio is just a relationship that always holds because we defined it that way. Since the arrow/hypotenuse/radius here is 1, the denominator of the ratio of the ”line across from the angle”/”arrow” relationship (the sine), so the line across from the angle IS the sine for that triangle. After all anything divided by 1 is just that thing.

Here we see a right triangle. The thick line is the side across from the angle indicated by the curved line at the lower left. The diagonal line is the hypotenuse (the arrow, or radius, in our circle), the longest line in our triangle. To the right of the triangle we have the thick line divided by the diagonal hypotenuse (which we defined as being 1 unit long). So in this ratio, this division, the thick line divided by 1 = the thick line. The length of that thick line then is the sine of that angle (defined as the side opposite of an angle over the hypotenuse which is 1 unit)

We collected these sides of the triangles, which were the length of the tip of the arrow above or below the horizontal bisecting line, and we created a sine wave! So the triangle sine and the sine wave of the circle are one thing.

Circle, square. Every square defines two circles; every circle defines two squares, without beginning or end.

Square triangle. Two triangles make a square.

Circle triangle. Every circle is made up of the hypotenuse of triangle after triangle, and these have relationships that define waves (we just looked at one such wave, the sine wave).

Waves have no beginning or end. We arbitrarily started and stopped at 3 o’clock on the circle. We could have kept going around and around the circle without end, and we could have started anywhere on the circle. We can go around fast, so we would have a high frequency and that would require more energy per time period. We can go around slow and that would take less energy per time period. Of course fast and slow are relative here unless you define a standard i.e. fast or slow relative to the speed of a massless particle in a vacuum, which would be the speed of light.

We could have gone in the opposite direction as well. These changes would have defined waves, just not sine waves (it would be cosine waves which are since waves out of phase, that is, shifted).

And waves, as we have seen, can add and subtract to form localized concentrations, that is, particles. Particles in this formulation are localized concentrations of the quantum field, which is the collection, or set, of potential waves based on the energy and state of a system. Wave and particle, the quantum conundrum, is then found in Sengai’s art, in the yin yang symbol.

So do you think Sengai had any of this in mind? Did he know trigonometry? Did he intuit that these basic forms could describe all form, even potential form that hasn’t formed? That these objects that have no physical existence but are abstractions, the product of mind, empty of substance, are the basis of all we consider substance in our quotidian lives embedded in the senses, the basis of all math and science, all time and space, the absolute inherent in the relative, the relative emerging from the absolute? Emerging in Mind?

Is this the dreams stuff is made of? Are these the parameters of the phantoms we chase?

Dogen:

“Nevertheless this great ocean is neither a circle nor has directions. The wondrous features of this ocean that remain beyond our vision are inexhaustible…. It is just that as far as my vision reaches for the time being, it appears to be a circle.”

Photos courtesy of Susan Levinson

It’s All About Mind at Play; That Is, It’s All About You

Posted on June 23, 2016 by zengut under Buddhism, Science

From the book “ A Beautiful Question” by Nobel Prize winner for physics Frank Wiczek:

“The human mind is our ultimate sense organ.” p. 159

This is true. Buddhism has had the mind as the sixth sense as a given truth for a couple of thousand years plus. Note Wiczek wrote “our” and that’s why “human brain.” It would also be true of any sentient being, brain or no brain.

This is also consistent with Biocentrism, as described in the two books by Bob Lanza and Bob Berman, “Biocentrism” and “Beyond Biocentrism.”

There is no separation, no out there. Sentience is all that exists. Beyond sentience, how can we talk about existence? What right, what warrant, as the logicians say, would we have for postulating something or nothing outside of sentience?

All our sense organs do is register changes in energy, but that is meaningless without sentience. In Lanza and Berman’s most recent book “Beyond Biocentrism” Berman writes about how it blew his mind and he had an enlightenment experience just contemplating that the whole universe he experiences is only what is in his head. This occurred when he was studying for an undergraduate biology course!

Savor that. He went satori reading a college level science textbook, usually thought to be the most intellectual, materialistic, uninspiring, boring thing anyone can read! Go figure! This is a valuable lesson: don’t limit your universe with your preconceptions.

Of course, that’s exactly what we do!

And how is that consistent with ‘no out there, no separation’? A couple of analogies or thought experiments might help:

Cut off one of your fingers (do it under local anesthesia, don’t be cruel). Keep it alive in some nutrient broth. You may experience phantom sensations, still experiencing that finger as being at the end of your hand. Like you did before you cut it off. Those feelings are all in your brain; the finger’s in a vat in another room. The finger was always an experience in your head. And later burn the finger. Did you feel it burn? That finger was you; it is you…right? Maybe not when your head doesn’t feel the pain? The finger has nerves that were kept alive, and they are certainly firing away, but how can we speak of pain as it burns in another room, separated from your brain? All we can speak of is the energy from the fire causing electric field changes in a tissue due to ion fluxes.

A current in the ocean appears to be separate from the water around it. It has different energy, that is, different momentum (it moves in a different direction and speed and may have different density from the water around it due to temperature differences i.e. a different mass/volume of space. Momentum is mass times velocity; velocity is speed with direction. Momentum, along with potential energy, is how we describe the total energy of a system in mechanics). The local differences in momentum are why it is experienced as a current. But it’s all water. It’s all one ocean, no matter how we divide it up with different names based on our limited experience, our local sampling of conditions, and our perceived needs in our subjective time and space. The energy of the current will dissipate and equalize with the rest of the ocean unless energy is pumped in by the sun and mediated by temperature changes, kinetic energy from storms, etc. Either way, nothing is lost, nothing is gained. Just energy transformations in One Ocean.

These analogies sound dualistic, so this and that, here and there. All those fingers, brains, oceans and currents. But that’s just the limited nature of analogies and language. What does Buddhism say about this? We chant “The Identity of the Relative and Absolute,” a Zen poem by Sekito Kisen from the Song dynasty about a thousand years ago that I have written about on this website before. He wrote: “the relative and absolute fit together like a box and its lid.” The ancient Zen master grasped this apparent scientific conundrum of what seems like duality in what must be non-duality (must be; how can there be something else? Again, by what warrant do we come up with such a silly concept as dualism?), and wrote a poem that holds up a millennium later. Gotta love it.

There is symmetry in the identity of the relative and absolute. The key word is identity; that is what a symmetry is. Change that keeps an identity. A circle is rotated; it changes but is still identically the same circle. It is symmetric to rotation.

As I have written about here before, symmetry is at the core of the mathematical formulations of modern physics. Wiczek writes about symmetry, describing it on p. 166 of his book as “Change Without Change.” He goes on to write that this is “a strange inhuman mantra for the soul of creation. Yet its very unworldliness presents an opportunity: we can expand our imaginative vision by making its wisdom our own.”

But while I agree about its wisdom, I think it is actually very human and not really unworldly, except in our limited day-to-day quotidian experience of our world; it’s just not limited by our humanity, by our “worldly” experiences in the illusion of time and space.

Change without Change. The identity of relative and absolute. That’s as hard-core, old school Buddhism as it gets.

Remember:

Science’s best model (quantum physics) says it’s all energy fields, throughout space and time. But as Lanza and Berman point out in their books on Biocentrism, time and space are dicey concepts. We invent time and space post hoc and ad hoc, to try to bring it all down to size, to grasp it all for what seem in our delusion to be ‘practical purposes,’ to fit our conditioned ideas of reality, our beliefs. Yet we know that relativity says time and space are part and parcel of each other, without independent foundation, at best fluid and relational and elastic, and quantum mechanics says time and space have absolutely no relevance to such basic observations as entanglement and two slit experiments, that reflect the behavior of particle or sets of particles, the most basic of basic entities science can grasp, and by extension, all that is.

Or as the Zen master Dogen wrote almost 800 years ago: Being-Time. Time as our lives. Time is Being, Time is sentience, time is Mind. Space is just the same.

So we have quantum fields without beginning or end, bottomless and topless, because there is no “where” and “when” until we chose to define it. Fields are described by magnitude and direction wherever you look. A particle is a concentration of the energy of that field, a local manifestation, in the sentient perception of space and time.

That’s all there is folks. In quantum mechanics there is no difference between here and there, other than how energy manifests as field or particle when perceived (measured, which is perception), then transforming itself in response. Like Indra’s net of the Avatamsaka sutra, where every jewel instantly reflects the light of every other jewel, which then reflects the light of every other jewel, which then…

And in all this, energy is conserved. Energy is symmetric. Nothing ever added or lost, just self-transformed. Science only understands energy by its perceived transformations. Can’t define or measure it directly. Can’t say where it came from or where it is going (no beginning no end).

As written in the Heart Sutra, form is emptiness and emptiness is form. Fields (undefined, without limit, without substance, without inherent separate reality) are particles, particles are fields. Mind is stuff, stuff is Mind. Relative and absolute are an identity.

Symmetry.

Or as our ancestors said, as our Zen teachers who know what they are talking about teach, and as Lanza and Berman in their Biocentrism details, it’s all Mind, Consciousness. And keep in mind, mind is Mind, consciousness is Consciousness. Your mind, my mind, our mind, all is relative/local/particle (if you will) manifestations of absolute Mind. Your mind and Buddha Mind, you and the Buddha Field. Like particle and field, or particle and wave if you prefer, as identical as the identity of relative and absolute of ancient Sekito’s poem. Don’t get hung up thinking the words that pop into your head, the concepts you are conditioned to believe, are the limit of your mind.

Red Pine writes in his translation of the Diamond Sutra that the Tang dynasty Zen master Huang Po said: “Buddha and beings share the same identical mind.”

Mind is Buddha, the ancients said. OK, they also said Buddha is a turd. Or the cypress tree outside. And they meant it. Literally.

Nyogen Roshi likes to remind us that the Buddhist sutras, the reports of the saying of the Buddha, are about us, our lives. Lanza and Berman, in their books on Biocentrism, say the same thing. It is you. Always was, always will be, to whatever extent we can talk about always. In all ways.

As the late Stephen Gaskin titled one of his books: it is all “Mind at Play.”

Information Is The Dreams Stuff Is Made Of

Posted on September 14, 2015 by zengut under Buddhism, Math, Science

Recently Stephen Hawking announced a new theory about what happens to information at the event horizon of a black hole.

Some scientists took him to task. They said in effect: isn’t it a bit of grandstanding to announce such a thing without showing your work?

I like that. Hold authority’s feet to the fire! That is the scientific way!

The question is: why do scientists care?

It turns out to be a question that is basic to the scientific view of how the universe is put together. Leonard Susskind wrote great book about it called “The Black Hole Wars.”

You see, information is conserved.

Like energy over all is conserved, is the same at the beginning of a process as at the end, though not the specific forms of energy (e.g. chemical energy becomes heat).

And most definitely not like entropy. Entropy is not inherently conserved!

Information that is conserved is not exactly the same as “meaning.” It is the possibility of different states. You know, like 0 or 1 in the binary code that the computer uses.

Or the letters of the alphabet. If you see:

LOL

in an e mail you think “laugh out loud.” Heck, you can program a robot to recognize it and make “ha, ha, ha” sounds.

Doest the robot know mirth? Joy? What it is to laugh?

Do you?

Is that information?

No, the idea that LOL means “laugh out loud” is meaning gleaned from information.It is not inherent in the information. We supply the meaning. Conscious, sentient beings do. If someone finds the letters LOL in a message many years from now, odds are it will not have meaning to them. Maybe not in very many years; I understand LOL is going out of fashion already. But it will have information.

LOL could have been randomly generated (a complex thing to do) or it could have been from a program that says: insert consonant-vowel-consonent.

Take a circle. Little information is needed to generate the circle:

a definition (all points equidistant to one given central point)

2. and the variable (the distance).

The circle is symmetric. If you shut your eyes and I spin the circle around the central point, when you open your eyes the circle looks the same. No change. Symmetry.

But the universe has changed. The energy I used to move my muscles to move, say a cut out circle, thus spinning the circle, or by tapping circle moving instructions on a computer keyboard to spin a computer soft ware generated circle, comes from energy stored in my muscle cells. The cells take glucose and break it down to CO2 and H2O molecules and use the energy released from the chemical bonds to create high energy bonds in ATP (adenosine tri-phosphate) molecules, then the muscles use the ATP molecules for energy, breaking the ATP phosphate bonds (creating ADP, adenosine di-phostphate and then passing on the phosphate released from the ATP; don’t worry if this doesn’t mean much to you. The details aren’t critical) and thereby changing the energy state in the ATP/ADP/Actin/Myosin structure and thus changing the molecular structure of actin/myosin in muscle to create movement.

This chemical/mechanical process resulted in more molecules with less energy in their chemical bonds than the original glucose molecule, and released excess energy as heat. Also heat is generated by my fingers moving the circle or pressing the keys (friction and the energy of my fingers interacting with the molecules in the paper as I move the paper circle or computer keys as they crash into each other). The change in the molecules and the cells and the infrared photons (the heat released) pinging around create a less organized, higher entropy situation.

So the circle is unchanged, it is symmetric, it is in the same state after we spun it that it was before we spun it, but the entropy of the universe has increased. We can re-create the glucose molecules, but it takes CO2, H2O, cellular organization and energy, for example in the complex biological process of photosynthesis. But there will still be the same or more entropy each time we go about making any change.

So even a symmetric situation in the “real world” is not totally symmetric. Even if we do the circle spinning as a thought experiment, where you don’t actually move the circle, as you did when reading this pretty much, takes energy! The energy of the chemical reactions and electrons moving about in your brain when you think generates heat and entropy.

Which leads us to thermodynamics and Maxwell’s demon.

But I digress; lets hold on doing more thermodynamics and Maxwell’s demon for this post. I will do more on that later.

For now, let’s get back to the idea that in the world of change and movement, the world of the senses (themselves of course information processors) information is conserved. Not meaning, just information.

Meaning is contingent. It is not conserved. It is relational, and generates entropy or uses energy to decrease entropy. Either way, energy and entropy are involved in meaning, playing off each other, perhaps. Energy is conserved. Information is conserved. Entropy is not. Meaning is not.

I find that very hard to get my head around. Why should that be? For that matter, why should it be that energy and information are conserved?

Perhaps it is because those conserved elements of reality were never created and can’t be destroyed, no beginning no end, so how can they fundamentally change?

Meaning is dualistic. It is not conserved. It is contingent on context.

Perhaps the universe at its core IS information. Some physicists think so. Every aspect of the universe that is, well, an aspect, is an aspect because it could have been otherwise (not necessarily just any old otherwise, perhaps a specific set of otherwise consistent with the laws of string theory, quantum field theory, whatever). Otherwise it isn’t an aspect.

0 and 1. Yin and Yang. Duality. That is what physics studies, after all. That is the core of our experienced universe of the senses.

Remember: information is not meaning, It is not essence, noumena. It is phenomena. It is occurrence.

Information is the dreams stuff is made of.

Meaning is determined by sentience. Consciousness. Is there silicon sentience? If so, that robot will know mirth. And why not? Why should we be carbon chauvinists? Perhaps the very quantum fields can coalesce in many ways to find mirth.

When communications scientists developed the idea of information, it was to quantify the fidelity of communications. Does a phone message get through ungarbled? Not whether the speaker or her message was coherent. Do the 0’s and 1’s that make up your e mail message stay the same, or are some lost in the “tubes” of the internet? It doesn’t matter if the email is LOL or a consonent-vowel-consonent randomly generated, whether or not it has linguistic or human intellectual or emotional meaning, if at each slice of time and space there was an either/or, a 1/0, there was information.

I will elaborate later. But I don’t know that I will get past the following no matter how hard I try:

Everything that happens according to scientists does not change the total information in the universe (though you can rob Peter to pay Paul energy/information, more here less there. Shuffle it around. That takes energy if we are talking about information). Information cannot be irretrievably lost.

This relates to symmetry (lack of change in some element of a system even if something somewhere else changes)

This relates to energy.

This relates to thermodynamics: what is likely to happen, and the role of entropy.

There is relationship between entropy and ignorance (another post; this is one of the technical definitions of entropy: how we can know the state of the components of a system) but as implied here, there is a connection between a type of contingent sense of meaning, meaning as we ascribe it to the stuff of daily life, meaning as motivation in our world of the senses, of our karmic experience, that is also part of entropy.

There is an Akashic record. Information in the universe is never totally lost. If you could lose information, modern physics collapses. Ask Dr. Susskind (or read his book!). This akashic record is not about some mystical new age vision of some grey haired old guy writing in a large parchment book with a quill pen somewhere or Santa Clause remembering if you were naughty or nice. In theory you could piece back all of the energy and information transitions and reclaim the original. Sure it may take time and energy without beginning and without end, so our technology may not be up to it.

Perhaps this “akashic record” is the manifest mind of the universe. It doesn’t have to track information back, put it back togeher. Perhaps it is the process, the functioning. It is not dualistic. It isn’t stuck in meaning in things like “LOL.” Maybe that is our dualistic perspective.

The process of oneness, of unfolding, of compassion, that is the flavor I suspect of this akashic record.

It is kind of fundamental and I find it kind of interesting!

Pyrrho, Buddha, Daosim and Science

Posted on August 16, 2015 by zengut under autobiographical, Buddhism, Science

In his book “Greek Buddha” Christopher I. Beckwith discusses Pyrrho, a philosopher who went along with Alexander the Great on his world tour of conquest in the late fourth century BCE.

It seems Pyrrho went native and studied with Buddhist masters. One story is that he made a lot of money as a court poet and then he was called to task by some wise guy, maybe some Buddhist sage. Was Pyrrho just singing for his dinner or was he for real? Pyrrho took the challenge! He went after ‘for real.’

When I say he studied with Buddhist teachers, I mean he practiced. His life was transformed. When he returned to his home island he lived his life as practice. He was beloved. He lived to keep it simple, keep it real.

We have later records of his teachings. He taught things (pragmata) are:

Adiaphora: ‘without a self-identity.’
Astathmeta: ‘not measurable’ (I would say without beginning or end), unstable (as in unbalanced, unsettling, pulling this way and that, per Beckwith)
Anepikrita: unjudged, unfixed.

Those of us familiar with Buddhist terminology will see there is a connection with dharmas as what we perceive, and pragmata, though the latter may have some other, more ethical or philosophical, connotations. Beckwith compares these three with the very basic Buddhist teachings of the Three Characteristics:

1. Anatman: no (innate) Self (Identity) [Beckwith has as third but it seems more like #1 to me]

2. Dukkha: uneasy, unsatisfactory, unsteady

3. Anitya: impermanence, unfixed.

He suggests that Pyrrho’s terms are in effect a direct translation into Greek of the Buddhist terms.

Beckwith also points out that since Pyrrho was writing and studying and practicing Buddhism around 300 BCE, his form of Buddhism is probably closer to the true teachings of the Buddha than many of the even earliest written Buddhist texts. Of course it’s not like we have the original writings of Pyrrho either, we have later versions and descriptions, and the early Buddhist writings are based on a vibrant and robust oral tradition. But Beckwith does have a point. Pyrrho’s philosophy is certainly based on very early Buddhist teachings as understood at least by some Buddhists who lived maybe a bit more than a century after the Buddha died. The fact that in what the Sutras call the ‘first sermon’ by the Buddha, as well as in many versions of Buddhism 101, the four “noble” truths (as I have done in earlier blogs) are used to introduce Buddhist thought, does not mean they were necessarily the original core teachings. It may be that is how it was later perceived or that it fit later understandings of the Buddha’s teaching (or agendas of later teachers and practitioners, as Beckwith suggests). Beckwith goes a lot further though, and you can read his book if you care about such things. If you are Buddhist, you may take exception to some of his theories. But to me, that makes it fun!

There is a great section in Beckwith’s book on the names Lao Tzu and Gautama being the same. That intrigues me. Clearly Zen/Chan is Daoism (or Taoism; pick your spelling!) meets Indian Buddhism. Not the later Daoism of gods and demons and alchemy and immortals, but the early Daoism of Chuang-Tzu and Lao-Tzu (author of the Dao De Ching). Sometimes I think Chan/Zen is as much a form of a Chuang-Tzu’s Daoism than it is a form of Indian Buddhism! Of course Chan and Zen tradition don’t quite see it that way. And the Chinese Chan masters certainly relished texts from India and the Buddhist kingdoms of the Silk Road like the Lankavatara and Diamond Sutras (they are really great stuff, read them if you haven’t and if you have any interest in Buddhism at all. Red Pine has done great translations).

Interestingly, Chuang-Tzu may have lived about the same time as Pyrrho. Of course they wouldn’t have met. Lao-Tzu lived earlier, it seems more about the time of Gautama Buddha (though dates are controversial for both)! One story in Daoist lore is that near the end of his life Lao-Tzu was said to have left China to travel west. Is Lao-Tzu and Gautama the same name as Beckwith suggests using a linguistic analysis?What does that imply? Very odd for someone who is Chinese to purposely go off to die far away in foreign lands. Very intriguing. Again, read Beckwith if you are interested in the argument.

Anyway, back to the core teachings, however they fit into the historical scheme of things. These core teachings are very scientific. Not only because they can be inductively arrived at by observation and confirmed by experience (the original meaning of the term “experiment”; same root word and that was on purpose), but in their essence.

Regarding impermanence certainly no composite “thing” lasts forever.

Modern physics does not have a permanency of things as an essential, verifiable teaching. Not particles, not universes. Quite the opposite. There are neither fixed particles (atoms and subatomic particles are basically forms of energy) or a fixed time and space. I am not only talking about relativity theory, which does imply that time and space are not separate, fixed entities, but more basically. Much has been written and discussed on the physics and metaphysics (that is the interpretation of physics, not the study of ghosts and goblins) about time and space. We do not know the extent of time and space, or even if these things are really distinct entities, if the in fact exist other than as illusions of mind. Robert Lanza talks about this in his book Biocentrism, as do others, and I understand Dr. Lanza is writing another book about time, space and the ‘illusion of death.’

Regarding the lack of innate existence we have seen particles themselves are just perturbations of energy, of the ‘quantum field.’ Modern biology and the earth sciences teaches us that evolution is contingent on the environment just as the earth and its atmosphere has been shaped by life. It is the environment that determines “fitness.” Most of the minerals on earth were made possible by the oxygen released by photosynthesis and exist nowhere else in the solar system. Neither the earth or the life on it, no individual, species, or life itself for that matter is fixed and innate, a fixed separate definable entity.

And while science is about measurement, we don’t know the extent of what can be measured. Is there an eternal set of multiverses and dimensions? Were there “big bangs going back and forward forever? Again, if time and space are illusions, what could a beginning and end possibly mean?

As for “unstable,” that is why there is anything at all from a scientific and mathematical point of view. I’ve written before about breaking symmetry. An ideal circle encompasses all and everything perhaps, it is certainly infinitely symmetrical by definition, but to have change there can’t be perfect symmetry. I have quoted the quantum field theory text that says that we are perturbations in a field. This is related to impermanency of ‘created things’ (is the field permanent? Is it a “created thing’?) as well. If the field were stable, there would be no things, no dharmas, no pragmata. For anything to change, to come into existence and then as it must eventually not exist, if there is to be what we experience that gives rise to the thought and perception of time and space, the system by definition must be unstable. It can’t be a system with an innate unchanging stability, a concrete thingy-ness.

There is change, evolution. There is the evolution of universes, particles, atoms, minerals, solar systems, planets, sentient beings.

As for Dukkha, unease (including but not limited to ‘suffering’ as in old translations into English), that does seem to be the nature of what happens if you yearn for the safety and reassurance of permanence, which is an illusion at best.

So science is quite compatable with anatman, dukkha and anitya.

I enjoy being challenged in my view of history by Beckwith. I enjoy seeing in the practice, writings and teachings of a poet philosopher who travelled with Alexander, a bit of confirmation that these core Buddhist/proto-scientific views were very ancient and proximate and core to the ancient teachings that underpin my practice.

Not that it really matters, I guess. Reality is reality, my practice is my practice, science is science, we live and die, however you conceive of it or dress it up or whoever may have glimpsed it before. Just kind of cool.

Circle Triangle Square

Posted on September 3, 2014 by zengut under Art, Math

Sengai Gibon (1750-1838) was a Japanese Zen master who was an artist. There are many stories about Sengai. One I particularly like shows his courage and compassion. The Daimyo, the high ranking Samurai who was the local ruler, loved chrysanthemums. The gardener’s dog destroyed some of his prized blooms and so naturally the gardener needed to die. Sengai leveled the rest of the flowers with is trusty scythe, presenting himself to the Daimyo the next day. Sengai asked to be killed for certainly in this area the farmers, who were dying of hunger were ignored by the Daimyo while pretty plants were valued above a human life.

The Daimyo got the message.

One of Sengai’s most famous works is “Circle Triangle Square.”

There are many interpretations of what this painting is about.

The inscription at the left alludes to Sengai’s temple, an ancient temple already at that time about 700 years old. it was the first Zen temple in Japan. So maybe the shapes refer to the temple. Or the pagoda at the temple.

Or maybe the circle is the cushion (zafu) the meditator sits on, the triangle is the mediator with the top point as the head, the solid base the butt and crossed legs. The triangle and meditator as mountain (the triangle/meditator/mountain idea was suggested in conversations with sensai Maezen at Hazy Moon). The square might be the zabuton, the square pad the zafu sits on.

I would like to interpret it geometrically.

I have no idea how much geometry Sengai knew. Clearly basic geometric shapes interested him enough to paint them.

I already discussed the perfect symmetry of a circle in the post “Circle and Wave.” Recall that a circle is an idea, defined as that object that is equally distant at every point from a central point. This distance is the radius of the circle. So all it takes is a distance to make a circle. The circle has perfect rotational symmetry, without beginning or end. When that symmetry is broken, we saw that we can produce waves, and these waves define particles, the basis of form.

We saw that breaking the symmetry of the ideal circle led to waves, particles and the manifest universe of form and is embodied in the yin yang symbol.

So circles are amazing but where do squares and triangles come in? How do they relate to the unwinding of the perfect circle as a wave.

Lets start with how a square and triangle relate. A square is two triangles.

Next, how do circles and squares relate? There are many ways, but here is one I like: Every circle precisely defines two squares, each of which intersects with the circle at four points. One square is inside, the other outside the circle. In a perfect symmetry, every square likewise defines two circles, each circle intersecting with the square at four points:

Those then define two larger and smaller squares and circles ad infinitum.

Now, how do circles and triangles relate and how do they make waves?

We can think of the circle as a clock face. This time we will think of the radius as a minute hand, here pictured as arrows, but this minute hand will go counter-clockwise starting at the 3 o’clock position. We will see how high the tip of the arrow is above or below the horizontal line bisecting the circle at several points.

Next lets put each vertical line along a horizontal line with each clock hour marked, starting at 3 o’clock and going counterclockwise. Even with just a few straight lines we see a wave emerging:

In this figure we placed the vertical lines above and below the horizontal line at their clock positions in the circle as marked on the horizontal line and connected the tips of the arrows with lines and got a rough wave.

If we were to add so many arrows and vertical lines so that the circle is filled with lines and arrows we would get a perfectly smooth wave.

What is this wave?

Each arrow in the circle goes from the center to the circle itself and so all are the same length. Each is a radius of that circle. It also is the hypotenuse (the longest side) of a right triangle.

Here is one triangle isolated to show that they are each indeed a triangle:

This figure Shows one of the triangles defined by the arrow and the line from the tip of the arrow to the horizontal bisecting line.

Now, lets say the arrow/radius/hypotenuse is one unit. It doesn’t matter one unit of what. A unit could be one inch, one mile, one light year, one unit of 6.753 mm, one diameter of an oxygen atom, it doesn’t matter; are all kosher as long as all other measurements that relate to that unit length, say of the other sides of the triangle, are measured in a way that is related to that basic unit (in inches, miles light years, multiples of 6.753 mm, diameters of oxygen atoms).

Remember basic trigonometry: the sine of a right triangle is defined as the length of the side opposite an angle (other than the right angle) over (that is, divided by) the hypotenuse. It is a ratio, no units, they cancel, just a relationship that always holds. Since the arrow/hypotenuse/radius here is 1, we defined it as one unit, the far side across from the angle is the length of that side over one, so that side IS the sine for that triangle. Here we see a right triangle, the thick line is the side across from the marked angle. The diagonal line is the hypotenuse (the arrow in our circle). The thick line is the side across from the angle. To the right of the triangle we have the thick line divided by the diagonal hypotenuse (which is 1) = the thick line. The length of that line is the sine.

So we collected these sides of the triangles, these sines, which were the length of the tip of the arrow above or below the horizontal bisecting line, and we created a sine wave!

Circle, square. Every square defines two circles, every circle defines two squares, without beginning or end. Square triangle. Two triangles make a square. Circle triangle. Every circle is made up of the hypotenuse of triangle after triangles, and these define waves (we just looked at one such wave, the sine wave).

So do you think Sengai had any of this in mind? Did he know trigonometry? Did he intuit that these basic forms could describe all form? These objects that have no physical existence but are abstractions, the product of mind, empty of substance?

Dogen:

photo courtesy of Susan Levinson

Circle and Wave

Posted on September 1, 2013 by zengut under Math, Science

In my GUT of Zen there are two phrases that suggest time and space:

You are the Universe unfolding

Mind evolving.

And there are two phrases that are outside of time and space:

No beginning and no end

No separation.

Time and space are deep and difficult. Don’t be seduced by clocks and rulers and your day-to-day experience into thinking you have any idea what they are about. The 13^th century Japanese Zen master Dogen famously spilled a lot of ink writing about time and change. Change is discussed in some of the earliest Buddhist writings we have. Scientists debate the nature of time and space to this day. In a recent review in the scientific journal Nature titled “Theoretical physics: the origins of space and time” (8/23/13) there is the lament that physics is incomplete without an explanation of time and space. There are seven competing theoretical models discussed, with titles like “quantum loop gravity” and “Holography”. Continue reading →

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