Category Archives: The mathematical reality

Getting back to blogging

After a pause of some two plus years, I’m inspired back into writing on this blog The Cosmic Landscape in Quantum Décor. The time sort of demands that the scientific outreach should be in some ways about things connected to the pandemic: the disease physiology; the viral mechanism; the long- & short-term impacts; the future projections; the cure development; the last, but not the least, the vaccines and its workings. In the today’s working of the world even physicist & mathematicians are pitching their intellectual skills on curbing the pandemic in ways that are novel & indeed needed. It’s an academic maneuvering how physics and mathematical tools can be utilized in contributing toward helping the pandemic. I have myself recently started working for The Antibody Society, and this is closest I came to helping toward bringing forth therapeutics or the related biological understanding. My work here involves scientific communication, liaising, and outreach, and I think there is thus some contribution, however slight, being made to the current scientific needs.

But as Brian Greene brought forth his Equation of the Day series: Entirely mathematical, and thus an outlook of physics, a premise that could be a pleasurable distraction that can bring a nerve calming comfort, at least for those who love physics, and even more so mathematics, for purely their beauty. Yes, I know you all find fascination in physics and mathematical equation just as much as in captivating words, painting, natural landscapes, and so forth. So, in coming back to my blog I would first revive all the back posts, which I wrote for their varied topics of enticing awe, while inviting us to learn something new about the world we inhabit. Most is to allure you into the beauty of mathematics, and its rendering of physics. The recent some of blog posts (will continue to post all in total of 3 batches):

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In bringing on your allurement of mathematical beauty, I want to bring in one the most fascinating equations, if not the most awe-inspiring mathematical rendition:

Eulers_Id

Stunning isn’t it. Even at a purely visual level. It’s more than stunning for ones who see the dynamics displayed in it. Foremost, it weaves five most important mathematical constants relating to each other in a single fabric. That’s what makes this tonality phenomenal. It’s as if this mathematical rendering speaks of all of the mathematics in a most short-cut form possible.

The interrelating constants:

“e” is Euler’s constant, a transcendental number (in a coming post I may say more on this) & a base of natural logarithm, which emerges naturally in phenomena innumerable like finance, exponential growth, statistical distribution, and is an inextricable part of higher-level mathematics that describes the universe we inhabit.

“i” is an imaginary unit of a complex number with property i = √-1, yet another topic of interest we might talk on in later posts.

“π” is transcendental as well, defined as, we all know, ratio of circle’s circumference to its diameter.

“1” seemingly simple but consequential in mathematical equations and understanding physical reality.

& if you rephrase to

Euler_Id2

“0”, indeed one of the most cherished constants that gives a defined order in the dynamics of higher mathematics, or any mathematics as such (we all know that).

This equation is known as Euler’s identity that directly emerges from from Euler’s formula, which relates e to sine and cosine in the field of complex numbers, devised by Euler (Leonhard Euler) himself.

I will leave it here for you to soak up on this. Leave a comment on your say on it, & I’ll write back soon.

Thank you,

Neeti.

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Math Shaped

To prepare a talk for the upcoming MathFest, to be held in Chicago this year, I was ruminating over articulating a clean-cut yet telling narrative. Since the talk subject is on ways to effectively outreach mathematics to general audience, it should at least somewhat bring up core concepts of mathematics. Somehow allude to the essentiality of its graphical and revelatory power, compared to just an instrument to calculate. Meaning mixing in subtler forms of advanced math, even abstract ones. I am sensitive to oversimplifying anything (my take on popular writing). It’s like providing a forced picture—like peas and potato analogy of quantum and cosmic realms in The Theory of Everything—that is far from an actual picture, and importantly dampened down on beauty, and inspiration. The point of outreach is to convey the subject—its significance and elegance that lay in the eyes of those who swim in it—not recite a lullaby.  And in my experience audience from all backgrounds, even without math ones, show true enthusiasm only when prompted into intricate and advanced forms of mathematics, yearning for the real sense. It’s there where the real message is, of what mathematics actually is about.

In my experience outreaching an advanced scientific field effectively rests on two basic elements. First, tell it the way it is, don’t soften it. That’s the hard part because all those elaborate labyrinthine equations with functionalities, symbols, and notations floating all over them is the very thing that makes some of us flee. And thus the second, present them correlatively as physical entity: Numbers to space, Algebra to geometry, Calculus to continual smooth change, Group and matrices to potentiality of abstract objects, the list is endless, and that physics itself at the core is mathematics. All those preposterous looking equations are actually quite beautiful and insinuating if you understand that those terms are the pieces of the landscape. The tangled appearance of an equation, like Dirac’s, would dwindle away once one sees what a colossal argument the equation is making.

Dirac_eq

Persuasion in an outreach effort usually employs an object central to disseminating pronouncements of the subject. I have been thinking of having an actual physical object, and the top two in the list were tesseract and Calabi-Yau manifold. Tesseract represents four dimensional cube—Mathew McConaughey materializing in tesseract after he plunges into the black hole in the movie Interstellar, making tesseract currently an object of popular demand. Calabi-Yau manifold is a mathematical thing of a projective plane, surmising six dimensions. Both, thus, though may connect to reality in theoretical outlooks, cannot crystallize in our 3-D view. They are abstractions of mathematics, and stand to be significant (very) fully in their own right.

Having a real physical model in the talk, I thought, would be pedagogical, and a neat way to draw in enthusiasm. On simply googling tesseract I bumped into a 3-D printing enterprise shapeways, offering a model of tesseract (a beautiful one). (I didn’t look for Calabi-Yau model. Didn’t think it was possible to have a model of such an intricate complexity.) To my amazement, here they offered a Calabi-Yau 3-D printout as well, in different colors, snapshots, and sizes.

In conveying the actuality of mathematics with its ultra sophisticated developments, Calabi-Yau manifold can be an epitome that embodies conceptions of advanced algebra, cutting-edge geometry, mathematical abstractions, and advancements of modern physics all in one exhibit. And it is aesthetically pleasing as well. I got it from them.

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Here is the snapshot of the 3-D printout (Itself a 3-D snapshot of 6-D object). It was also nice to exchange a few productive words with Rick Russell—at the Shapeways, who generated this 3-D printout with an expert eye for math and its models—on this very enchanting object. Hope the audience will like the object as much as I do.

CY_Rot

The model emerges from the graphic that was originally rendered by A. Hanson, Indiana University, and it has done a phenomenal job in making its appearance from the nooks of abstract algebra articles, to academic and popular literature, to the explanations of modern physics. Somewhat surprised that it hasn’t shown up in the mainstream media, at least not yet.

Be back shortly,

Neeti.

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Prime Numbers Paralleling Reality: Possible?

Post recently published in Science Blogs. Thought of posting it here to keep the blog readers current. Indulge in primes!

All non-trivial zeros of the zeta function have real part one-half

stated Bernhard Riemann in 1859, a German mathematician whose contributions to modern mathematics, and theoretical physics, is wide and deep—a commonly known one is in structuring the layout of Einstein’s theory of general relativity (spacetime conforms to gravity).

Riemann zeta function

The relatively simple form of Riemann zeta function (in the above statement),

equation1

is an infinite series converging on its limit—a mathematical articulation worked out utilizing tools of analysis. This function with some clever number juggling, directed by Euler, transforms itself into a product (∏), that is, a series involving multiplication—as opposed to the above summation (the summation symbol ∑ we are familiar with)—over all primes, bringing the quirk of primes in the scope of palpable. Here we have the most significant milestone in connecting the nature of primes to the tapestry of all numbers (recall that at surface we don’t see a clear scheme in the distribution of prime numbers). The magic lies in the relationship of “product (∏)” to “summation (∑),” known as Euler product formula, with prime numbers coming into play. The above zeta function is then also this:

equation2  (p: prime, over all prime numbers)

Conceiving the dynamics of this function would then help grasp the inner nature of prime numbers, which Riemann did by the above hypothesis. Indeed visualizing the dynamic interplay not only involves seeing the structuring of prime product but also seeing it in the light of playing of the summation function, which involves perceiving through scrupulous analytics and advanced calculus.1

Digging deep

Except for 1, the zeta function has values for both positive and negative numbers, and its value for every negative even number is a zero—but a trivial zero. (We will see what the zero of a function implies in a bit.) The availability of non-trivial zeros is the gripping point in the true portrayal of prime numbers, and it emerges from the zeta function only but under the guidance of complex field involving the above exponentiation with complex numbers (“a + bi” is a complex number, with a as real part and bi an imaginary where the standard i is taken to be √–1). The Riemann Hypothesis says that under the navigation of zeta function, the complex plane brings about a steadfast line that sits at a ½ real value, streaked all the way to infinity rendered by all non trivial zeros—known as the critical line (Figure 1). Infinitely many non-trivial zeros satisfy the Riemann hypothesis,2 and the first ten trillion of them are seen to conform to the hypothesis.3

The first few non-trivial zeros (known as Gram’s zeros) start approximately as:

½ + 14.134725i; ½ + 21.022040i; ½ + 25.010856i

See the ½ real in the complex plane with different “i”s. Important is to note that here all “i” comes to be an irrational number, that is expanding limitlessly without any pattern, but that’s another story, off from the point of this post.

Figure1

Seeing the looming “½” takes exceedingly complex renderings like Equation3 and Riemann’s vision. Significant mathematical maneuvering and background would be required to even come close to how the non-trivial zeros align, but there it is. By it we have a hold of a crisp order executed by prime numbers—the very numbers that at the surface hover haphazardly (Figure 2). And this schematic is written in a regular numerical language right in front of our eyes. The root of the natural number landscape comes to be the tenacious halo of primes.

Figure2

Unifying Principles

Lucid as it is, we haven’t seen the apex yet. In this deep-seated scope of a clear scheme the prime numbers take us further. Their fabric is stunningly indicatory one. It is here we see the dovetailing primes portending the coordination of the physical universe at its inmost depths.

To cut a lengthy and exceedingly labyrinthine story short, the mathematics that goes in describing quantum mechanical landscape constructs on advanced dosages of matrices—a group in an array that abides by certain set principles—algebra, and group theory. Mathematical operators, which underlie the rendering of matrices, are utilized to chart out the statistical mechanical territory of quantum landscape. Every matrix is stamped with a signature algebraic equation. An algebraic equation is like a prescription, realizing which one can decipher the nature of the object. At mathematical level this means finding its roots: incorporating what values in the equation do we get a zero. For example, for an expression x2 – 3x – 4 (i. e. equation x2 – 3x – 4 = 0) the roots come to be –1 and 4. Replacing x with either number annuls the expression, or makes it zero. The degree of the polynomial (algebraic) defines the number of zero(s) the polynomial has. Thus the squared ones, like in the above example, will have two zeros, or roots.

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It is in these roots we merge the math and universe. For mathematical operators that go in describing quantum field these algebraic zeros are referred as eigenvalues—rings a bell? Indeed, it points to the eigenvalues of energy in quantum mechanical setup—that only certain values of energy are allowed.4,5

It is here we have the natures unite. Some such specialized operators cast striking resemblance with the Riemann’s zeta function in a way that the operator’s eigenvalues coincide with the zeta function’s non trivial zeros. It is here that not only diverse mathematical branches meld but also mathematical and physical amalgamate (Figure 3), by the sharp correspondence of the quantum energy values (the eigenvalues) and the non-trivial zeros.

Figure3

We now have prime numbers not only casing a universal principle of symmetry but also doing it in the well defined outlay of tactile quantum realm.5 Their symmetry isn’t on the surface but in the dynamical interplay—the aligning of zeta zeros—that the physical world at its roots dons.

The non-trivial zeros themselves fall in a pattern, and squeeze closer and closer, as we climb up the complex ladder of zeta function. The spacing of non-trivial zeros aligns with the spacing of the eigenvalues. The array of quantum eigenvalues constitutes the spectrum that the non-trivial zeros of zeta function bring forth.  Then, the deep-hidden order of primes is the language of quantum depictions.

This was more than expected!

It is even contemplated that the Riemann function itself can directly be prescribed by an operator which would model a physical system, i. e., a potency of seeing a physical system by the weave of Riemann operator—a physical system of semiclassical quantum chaos to be precise.4 Not chaotic chaos, but chaos of chaos theory which sees a crisp complexion in a rendering that at the surface appears completely erratic. The non-trivial zeta zeros of this operator would be eigenvalues of a semiclassical chaotic system.

The Riemann hypothesis not only substantiates the Prime Number Theorem, it exposes a stubborn structural identity to the prime numbers, and piece them in the all-embracing arena of symmetry. Indeed immense approximations are involved for us to see the diagrammatic of the hypothesis, but they are all with acute mathematical precision.

The nuance of the quantum world vindicates the hypothesis. Do we still need a proof!

The hypothesis isn’t proven or disproven yet,6 but it has incited a great deal of novelties and unified large swaths of mathematics and mathematical physics in the interim. The intricate interconnections that play out behind it is mesmerizingly suggestive, and offer deep insights of the natural structure that is both discrete and abstract at the same time.

——————————————————

References:

  1. John Derbyshire, Prime Obsession, Bernhard Riemann and the Greatest Unsolved Problem in Mathematics, A Plume Book, 2003
  2. H. Hardy (a British mathematician) in 1914 proved that infinitely many non-trivial zeros satisfy Riemann Hypothesis (or lie on the critical line): Sur Les zeros de la fonction ζ (s) de Riemann. French. In: Comptes Rendus de l’ Académie des Sciences 158 (1914), pp. 1012-14. Issn: 00014036.
  3. Gourdon (2004), The 1013 First Zeros of the Riemann Zeta Function, and Zeros Computation at Very Large Height.

For an overview (4, 5):

  4. Barry Cipra, A Prime Case of Chaos

  5. Germán Sierra, The Riemann zeros as spectrum and the Riemann hypothesis

6. Clay Mathematics Institute Millennium Problems: http://www.claymath.org/millennium-problems/riemann-hypothesis

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True Beauty Resides in Fundamentals

As I had mentioned, here is my write-up on the Archway Publishing Blog, on communicating complex scientific ideas. I was excited to bring in the Riemann Hypothesis to point out a elaborate mathematical complexity that is just as visionary and captivating:

Translating Complex Science for a General Audience

The last few posts were dedicated to gear us on the total solar eclipse that is approaching in our sight. The excitement among the educators, eclipse chasers, and anticipators is palpable. I had mentioned the veritable organizations and devoted scientists/educators (1, 2, 3, 4) that remain in full swing in disseminating the information and advice to spur on the audience from all backgrounds. The sight of a total solar eclipse is phenomenal. (I am told by those having savored it first-hand, I haven’t seen it myself. So despite my truly appreciating the fundamentals behind this cosmic display, I am looking forward to it as any other enthusiast.)

Although the cosmic and worldly wonders captivate us, it is the peek into the fundamentals that ticks enthusiasm, and keeps it alive. ASP (Astronomical Society of the Pacific) annual meeting presentations are uploaded, and you can find mine on fundamentals by the window of total solar eclipse there (the video of the same). Whether talking of gravitational waves, Einstein’s theories of relativity, hidden black holes, the origins and the acceleration of universe, the enigma of dark matter and energy, or the spectacle of total solar eclipse, at surface they all stir up wonder, but the real lure lies in the fundamentals that help us visualize how things shape up—and appreciate the true beauty.

When it comes to methodic delineation even beauty has fundamentals behind it. How much we have figured that out is a different issue. This brings up a narrative book A Beautiful Question compiled by a renowned physicist Franck Wilczek on the conception of beauty and the forces it embodies. (I am just finishing reading it.) With big chunks of basic facts, and on laws governing the universe, the text unfolds the cast of beauty that seeps the natural world, and how reality and beauty can be seen synonymously. Written with ethereal tone, it is informative and enjoyable read for audience from all backgrounds.

Disseminating deep-seated scientific formulations and complex theories to all audience isn’t very straightforward, mainly for the fact that it’s in these very intricate renderings that the true sense of beauty can be sniffed. It is where an educator enthralls, and a scientist draws in. The play of symmetry in quantum mechanical enactment or deep views of mathematical physics is one such example. Simplifying beyond a point would necessarily dampen down on beauty, and in a way mutilate the truth.

I have been in touch with friendly staff of Archway publishing with the hope of writing a post on their Writer’s Blog. The post had to be on the process of writing and publishing. Disseminating scientific advancements to general audience seemed an appropriate topic, and I recited some of my thoughts on communicating intricate concepts of physics and mathematics without taming the aesthetics—A demanding thing. The post should be out soon, and I will let you know.

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Whether abysmal structure of the universe, the abstractly play of quantum field, the order of nature, or the subliminal sense of aesthetics, in the core of all resides the commonality of mathematical voice. And I am always looking for opportunities to communicate on this very aspect of mathematical truth. To that end I have just started writing on Science Blog site, under the title Mathematical Correlations. Take a look and let me know your views.

Sci_Blog_BN

Scientific, educational, pedagogic, and creative aspects of mathematics blend in MAA (Mathematical Association of America) annual meetings. This year it is held in Chicago, and I am hoping to speak on how to entice non-mathematicians into mathematics, especially those that are apprehensive of the subject.

I am happy to see Facebook visitors, and appreciate their stopping by for scientific nuggets.

See you all soon.

Neeti.

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Nonfiction Science

Pleased to see a sizable enthusiasm for the title Physical Laws of the Mathematical Universe: Who Are We? I had set a giveaway at the Goodreads, and was charmed to see so many avid readers of nonfiction science entered, while many tagged the title as to-be-read. I with fervor packaged individual copies, included short notes, and mailed them off. So yes the 10 winners should be receiving their copies shortly. It’s on the way. A short recap, the title discusses an overarching scheme of how the universe and its parallel forms, exist and continue, and how we ourselves are part of the continuum that physical sciences reverberate.

IMG_0108

I am still getting familiar with the Goodreads, and it is nice to find abundant science titles covered there, including many currently prominent science author profiles marking the widespread landscape of readership from all genres. Science surely has caught on as a choice read in recent times. Not science fiction, but the real hard core nonfiction science. If we cover its depths, the real science is far more awe inspiring, even mystical. Go into the depths of quantum mechanics, and you will see what I am implying. This isn’t to say that the creativity of fiction science is redundant. Fiction lets mind wander wherever it wants to wander. Nonfiction on the other hand gives so many fresh perspectives, and insights. Do take a look at the Goodreads for nonfiction. You may start from the few books I just commented on.

Popularity of nonfiction science isn’t as across-the-board on other places. I recently attended the illustrious Book Expo America 2016—mostly because my title Physical Laws of the Mathematical Universe was included for display at the Archway Publishing booth. Thousands of titles emblazoned the most prolific of booths—Simon and Schuster, Penguin, Random House, Harper Collins. A few nonfiction non-science titles caught my attention enough for me to mark them as to-be-read, and I have already read a couple of them, and they are engaging. But mostly, by nature and choice, I was inclined to scavenge for scientific tiles there. Thus the University booths, Oxford, Cambridge, Princeton, MIT, Chicago, Basic Books (known for publishing popular science titles in physical science; I have some very good titles from them) and a few others were a definite targets to be explored bit by bit. And I did get a bunch of interesting reads, and some good math fun books, but mostly hard core science (even popular) was missing across the whole show. The ones included were either in youth section, or very toned down popular. We need to go a little way to build up the real science ardor. I was swept with a feeling that my title at the Archway Publishing was perhaps the only one that extended into the serious scenes of physics and mathematics. I would still call it popular science. At the Simon and Schuster – Archway Publishing authors reception on the day two of the event, a few authors did tell me that they are going to read it!

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PostIX

See you all soon,

Neeti.

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The Title and its Storyline

Continued from the preceding post…

Foremost, we can’t keep from commemorating the 2016 Abel prize awarded to Andrew Wiles of Oxford University, for proving that the Fermat’s Last Theorem is indeed true (in the year 1995). Congratulations to Andrew Wiles, and Pierre de Fermat! Fermat did claim (in the 17th century) to have surmounted proving his own elegant equation by noting “I have discovered a truly marvelous proof of this, which this margin is too narrow to contain.” The methodology Andrew Wiles employed is too advanced for the time of Fermat. Inspired at the age of ten, Andrew Wiles decoded the mystery of Fermat’s Last Theorem in the year 1995, a truly uphill task that was interspersed with a humiliating pitfall that ultimately lead to the glory and catharsis, as his humbled tears rolled out upon meeting the wish.

Whether or not did he have the proof (we will never know), Fermat would have cheered the breakthrough, and recognition.

Here is my take on it:

Well, I am more excited than many, first because of the Oxford University backdrop in the recognition, but mostly because it involves the elegance and depth of Fermat’s Last theorem, and seeing it to be accurate.

I delight in the simplicity of its statement (the equation), yet the far reaching and deep insights it casts. I include the insightful cadence of this equation in my book.

The excerpt from the book, following which is the award link:

Excerpt, Pg. 56: Physical Laws of the Mathematical Universe: Who Are We? (about the book: www.magnifieduniverse.com/aboutbook)

“Fermat’s Last Theorem: An Enigma, or Not

For its blunt accuracy and transparency, even though we didn’t have a valid proof at the time it was stated, Fermat’s last theorem became a cliché mathematical citation, appearing regularly in didactic and popular genres alike.5,6 The statement is elegantly simple, but the meaning conveyed is both sharp and profound. Drafted by a French mathematician, Pierre de Fermat, in the year 1637, it states,

FigVI

              where n is the exponent of 3and up. The phrasing tells us that the sum of two exponentiations cannot give rise to an exponentiated entirety for the powers of three and up. For example, 32 plus 42 structures into 52, but 33 plus 43, in accordance with Fermat’s theorem, does not evolve into an entirety of x33-D-fold. Fermat’s equation applies for any numerical grade—in fact, tellingly, for any digital combination—as long as the power is 3 or higher.”

The award; The recognition

Cheers everyone!
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Back to the storyline, and the central points of discussions:

Universe Needing to Inflate

The abrupt inflation of universe in our cosmic history, its interrelatedness with the detection of gravitational waves, and seeing the necessity and order of the event of inflation itself

            “As enigmatic as it may sound, the scenario of expeditious growth does have healthy outlooks to support of the way we envisage the universe based on scientific judgments.”

In the Name of Science

The question of how do we amass interest and enthusiasm in science, its concepts and methodology. Then move further to have us all interested in seeking the true order of reality.

Interstellar

Do not miss out, if you like edutainment, especially with small dosages of science. You might pick up serious bits without having to try!

Grothendieck’s Deep Visions

The gravity of mathematics, and its followers: Alexander Grothendieck as an ardent devotee of anything deep and mysterious in mathematics

Continued in the next…

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Magnified Universe: Cosmic Landscape in Quantum Décor

The theme accentuated: continued…

In discussing over the underlying gist of the blog Magnified Universe: Cosmic Landscape in Quantum Décor we skimmed through the overall idea of how the three components are indispensable if we are to envision the truest order of reality. Those components are:

1] Cosmic observations

2] Quantum observations

3] The nature of self

Cosmic observations impart a limited range, authentic nonetheless, picture. We only see what we can see. Quantum level reading broadcast a comprehensive picture: including every bit, and factual scenarios that we do not directly perceive. It is in quantum mechanical rendering that all the elements of reality can be seen to play. All-encompassing architecture—that subsumes infinitesimal bits of atomic and subatomic particles, even strings for the believers of string theory (I support the idea totally!), molecular, macromolecular and complex biological structures, cosmic arena, the entire of the universe, and also its parallel universes—at the foundational level boils down to the sweep of matter and the forces by which matter exists.

In a nutshell there only are two constituents to dovetail in seeing one flawless scheme—matter and the forces through which matter exists. Amazingly simple task, but exceedingly hard to surmount! Simply because the ultimate picture must pick up all of the methodic observations in one fell swoop, and explain the rationality behind contradictions, such as prodigiously expanding universe in the tethering field of gravity, or the existence of antimatter.

However, there does prevail just one more vital element, executing in the overarching game of reality, admittance of which not only completes our picture of reality, it irons out perplexities of the empirical descriptions as well. That element is the ultimate nature of self. Physical Laws of the Mathematical Universe: Who Are We? not only pins down the ultimate nature of self, but extends to show its play in the all-encompassing scheme, and sharpens scientific picture along the way.

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Now a deep-seated aid at our hand in all of this! Behind the discrete show of the universe, there seeps a profound glue. A glue that interlocks disparate pieces into one compact description. We have seen it over and over, and many of us have guessed it correctly. It is the glue of mathematics. Why it comes to be that way? Simply put, mathematics is an algorithmic language that lets us read reality. Deeply engrossed in the formulas of mathematics, we forget as to what a mathematical formula actually is: the formulation of reality, or the structure of reality. Mathematics, which though at the surface is a tool to codify the interplay of discrete entities, at the most basic level is the structure of reality itself, the reverberations of which we haven’t fully figured out. Same as we haven’t all the way figured out how the universe structures and continues.

The discrepancies lurk; Inquiries linger; Bewilderment creeps.

However, the numerical language carries the highest of potentials to expose the truly real all-inclusive picture of reality, simply because mathematics crystallizes only by play of all the components. Simple to intricate examples are covered in the new title.

And it is in the deep subtleties of mathematics that we can not only pin down quantum dynamics and cosmic display, but also tease out the truest identity of self.

FigIV

In keeping with the blogging courtesy and your continual interest, I would need to take a pause here, and expand on this further in the subsequent posts.

Until then please also take a peek at one of my earlier posts to get a general idea that seeps underneath the parallelism between mathematics and the physical world.

See you soon,

Neeti

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Our Magnified Universe

 

 

 

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cialis generika http://icks.org/n/data/ijks/2017-5.pdf In this condition, a man cannot ejaculate at all. It is relatively safe when used correctly and that the patient strictly adheres to the medical professional’s specification. generic soft viagra on the other hand have been as admired as those of men. And cialis prescription canada it won’t be the last. It lowest prices on viagra could takes place on roughly any stage in their life. The awe inspiring topic of Our Magnified Universe– “Wondrous Universe: Our Truth in the Window of Science” was covered in TEDxSLU (of St. Louis University), along with other inspirational and delightful speeches and performances. We all steeped ourselves in enthusiasm and thrill as we navigated through the day bustling with activities, and ideas. A lot of credit goes to the organizers, mostly from St Louis University, for charting out such a well planned event. Take a peek at their initiative and the TEDxSLU event. Subjects as diverse as leadership, genetics, human relations, and pure scientific voices made up the fabric of the program. Interspersed were vibrating shows like salsa dance.

Coming to the subject of this blog, my talk overall gave a broad perspective of the book title Physical Laws of the Mathematical Universe: Who Are we? i. e., How can we come up with a scheme where all scientific descriptions, cosmic or quantum, make sense, and we see ourselves to be a part of the grand continuum. Following this initiation, was the introduction of the fascinating mathematics—how mathematics acts as a glue in seeing a truly real picture. I will try to post more on this event shortly.

See you soon,

Neeti.

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The allure of mathematical subtleties: Do we see the otherwise unfathomable reality?

This time it was a relatively long breach in our communication, and I have been contemplating on dropping a note or two for some time now. So here they are. A few updates for our reasoning and creative appetites.

–          Do read The Impenetrable Proof. An almost anecdotic article brings to light the alleged mathematical solution to one of the greatest unsolved problems of mathematics—the abc conjecture. The assumption relates to the game of prime numbers, and how their quirk plays out in the landscape of number field. Though the article mostly relates to the storyline of the mathematician Shinichi Mochizuki who claims to have solved the conjecture, and along the way he seemingly had to create a new outlook of the nature of mathematics itself. His newly created mathematical plot of inter-universal geometry is very enticing. High-ranking mathematicians have found themselves perplexed in following the proof for the truly different mathematical perspective that it adopts. It isn’t as rebellious as it sounds. The allure of seeing the truth (or imagery in this case, specifically) in the mesmerizing abstractness of advanced mathematics isn’t very new, and many of us before have plunged into these realms. Article nonetheless is worth to truly feel how the truth of mathematics is genuinely at work at subtler levels.

–          In relation to the fascinating prime numbers, a hypothesis that stands out is the yet unsolved legendary Riemann hypothesis:

“All non-trivial zeros of the zeta function have real part one-half”

A relatively bland on the surface, the playing of this articulation isn’t just riveting, it takes in intricately advanced features and gives forth exceedingly consequential messages. I have just written an article on it, in the context of mathematical reality of the universe. I should be able to post this article here shortly.
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–          In connection to the above, and with all the current buzz on mathematical reality of the universe, and our true nature, my book Physical Laws of the Mathematical Universe: Who Are We? has just come out. We are still working on the e-book, but do stop by and join in to let me know your views, or drop me a question.

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See you all soon,

Neeti.

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Grothendieck’s Deep Visions

Alexander Grothendieck isn’t a household name in academic community, and at a general level hardly anyone would ever have heard of him. Among mathematicians he dwelt as persona of profound brilliance and finesse, colored with uncanny idiosyncratic taints. Not just efficient in clearing up of the most convoluted mathematical renderings, he held clear workings of the most abstractly mathematical landscapes—of algebraic geometry and topology—and advanced them to the level of fathomable depictions for us all.

As in many cases in the modern history, his deep mathematical insights seemingly came with a price. Apart from deep-seated crannies of complex mathematics, he, seemingly by choice, remained mostly disconnected from anything in the rest of the world, even the simpler branches of mathematics.

I read somewhere an anecdote about him on prime numbers, which he chose not to be worthy of attention. He apparently addressed, hopefully unwittingly,  number 57 to be a prime number, which it isn’t (it factorizes to 3 and 19, and is thus not a prime number). Since then in mathematics community 57 is referred as Grothendieck’s prime.

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Neeti Sinha

Magnifieduniverse.com

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