THE VIRTUAL UNREALITY MACHINE
I have a dream.
I am surrounded by-nothing. Not empty space, for there
is no space to be empty. Not blackness, for there is nothing to
be black. Simply an absence, waiting to become a presence. I
think commands: let there be space. But what kind of space? I
have a choice: three-dimensional space, multidimensional
space, even curved space.
I choose.
Another command, and the space is filled with an all pervading
fluid, which swirls in waves and vortices, here a
placid swell, there a frothing, turbulent maelstrom.
I paint space blue, draw white streamlines in the fluid to
bring out the flow patterns.
I place a small red sphere in the fluid. It hovers, unsupported,
ignorant of the chaos around it, until I give the word.
Then it slides off along a streamline. I compress myself to one
hundredth of my size and will myself onto the surface of the
sphere, to get a bird's-eye view of unfolding events. Every few
seconds,
I place a green marker in the flow to record the
sphere's passing. If I touch a marker, it blossoms like a time lapse film of a desert cactus when the rains come-and on
every petal there are pictures, numbers, symbols. The sphere
can also be made to blossom, and when it does, those pictures,
numbers, and symbols change as it moves.
Dissatisfied with the march of its symbols, I nudge the
sphere onto a different streamline, fine-tuning its position
until I see the unmistakable traces of the singularity I am
seeking. I snap my fingers, and the sphere extrapolates itself
into its own future and reports back what it finds. Promising ...
Suddenly there is a whole cloud of red spheres, all being carried
along by the fluid, like a shoal of fish that quickly
spreads, swirling, putting out tendrils, flattening into sheets.
Then more shoals of spheres join the game-gold, purple,
brown, silver, pink .... I am in danger of running out of colors.
Multicolored sheets intersect in a complex geometric
form. I freeze it, smooth it, paint it in stripes. I banish the
spheres with a gesture. I call up markers, inspect their
unfolded petals, pull some off and attach them to a translucent
grid that has materialized like a landscape from thinning
mist.
Yes!
I issue a new command. "Save. Title: A new chaotic phenomenon
in the three-body problem.
Date: today."
Space collapses back to nonexistent void. Then, the morning's
research completed, I disengage from my Virtual Unreality
Machine and head off in search of lunch.
This particular dream is very nearly fact. We already have
Virtual Reality systems that simulate events in "normal"
space. I call my dream Virtual Unreality because it simulates
anything that can be created by the mathematician's fertile imagination. Most of the bits and pieces of the Virtual Unreality
Machine exist already. There is computer-graphics software
that can "fly" you through any chosen geometrical
object, dynamical-systems software that can track the evolving
state of any chosen equation, symbolic-algebra software
that can take the pain out of the most horrendous calculations-
and get them right. It is only a matter of time before
mathematicians will be able to get inside their own creations.
But, wonderful though such technology may be, we do not
need it to bring my dream to life. The dream is a reality now,
present inside every mathematician's head. This is what
mathematical creation feels like when you're doing it. I've
resorted to a little poetic license: the objects that are found in
the mathematician's world are generally distinguished by
symbolic labels or names rather than colors. But those labels
are as vivid as colors to those who inhabit that world. In fact,
despite its colorful images, my dream is a pale shadow of the
world of imagination that every mathematican inhabits-a
world in which curved space, or space with more than three
dimensions, is not only commonplace but inevitable. You
probably find the images alien and strange, far removed from
the algebraic symbolism that the word "mathematics" conjures
up. Mathematicians are forced to resort to written symbols
and pictures to describe their world-even to each other.
But the symbols are no more that world than musical notation
is music.
Over the centuries, the collective minds of mathematicians
have created their own universe. I don't know where it is situated-
I don't think that there is a "where" in any normal
sense of the word-but I assure you that this mathematical
universe seems real enough when you're in it. And, not despite its peculiarities but because of them, the mental universe
of mathematics has provided human beings with many
of their deepest
Chapter 1 : The Natural Order
Chapter 2 : What Mathematics is For
Chapter 3 : What Mathematics is About
Chapter 4 : The Constants of Change
Chapter 5 : From Violins to Videos
Chapter 6 : Broken Symmetry
Chapter 7 : The Rhythm of Life
Chapter 8 : Do Dice Play God
Chapter 9 : Drops Dynamics and Daisies
Nature's Numbers : The Understanding of Mathematics
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Mathematics helps the man to give exact interpretation to his ideas and conclusions. It is the numerical and calculation part of man's life and knowledge. It plays a predominant role in our everyday life and it has become an indispensable factor for the progress of our present day world.Maths is very important in every day life as it provides us to do the calculations easily and correctly.
ReplyDeleteCHAPTER 1
ReplyDeleteI learned in the first chapter of the book is mathematics isn't just about solving problem, calculations or equations that is usually the first thing that comes to our mind when it comes to mathematics. If we were to try to understand or widen our perspective on mathematics, we can all learn something new and we can have answers on the things we don't know about mathematics. I've also learned mathematics has patterns that enable us to understand the world around us. The first chapter already seek to define what we actually mean by pattern that we usually see everywhere. Patterns that can be seen anywhere, that are present in every object that are difficult not to notice.
CHAPTER 2
ReplyDeleteIn this chapter, I learned what is the importance and use of mathematics. I understand that the two main things that mathematics are for are providing the tools which let us understand what nature is doing and give question to us to explore more about the subject. He mentions that many science books, whatever it's source, may eventually turns out to be useful and we can apply to the real world. I discovered that nature use every pattern that there is, which is why we keep discovering patterns everywhere. We humans express these patterns in numbers, but it isn't the numbers nature uses. Mathematics is not about analyze, it can anticipate or predict how all kinds of system will work because of math.
CHAPTER 3
ReplyDeleteIn this chapter, it talks about what mathematics is about. Numbers are the most important or well known part of mathematics. I learned that math has a five system, the natural numbers, integers, rational numbers, real numbers and complex numbers. Math is also about operation like addition, subtraction, division, and multiplication. I find out that mathematics is like landscape with similar evidence and theories that if you put together it will create changes.
From a zebra's stripes to a spider's web, from sand dunes to snowflakes, nature is full of patterns underlaid by mathematical principles. In The Beauty of Numbers in Nature, Ian Stewart shows how life forms from the principles of mathematics. Each chapter in The Beauty of Numbers in Nature explores a different kind of patterning system and its mathematical underpinnings
ReplyDeleteBase on my understanding by the book I have read it is all about the mathematicians views about nature. The mathematician relate mathematics to the nature by their differents pattern of movements and appearance. That possess beauty in such creatures like nature that is difficult to observe in our daily lives.
ReplyDeleteBase on my understanding by the book I have read it is all about the mathematicians views about nature. The mathematician relate mathematics to the nature by their differents pattern of movements and appearance. That possess beauty in such creatures like nature that is difficult to observe in our daily lives.
ReplyDeleteAccording to Ian Stewart mathematics is an important subject to human life and also introduce some important and fundamental concepts mathematics.According to Chapter 1-3 in Nature's Numbers,human mind and culture have developed a formal system of thought for recognizing, classifying, and exploiting patterns.By using mathematics we discovered systematize ideas about patterns and i learned that mathematics can use everywhere or mathematics is around us and also according to them there are two types of pattern known as fractals and chaos mean fractals is geometric shapes that repeat their
ReplyDeletestructure on ever-finer scales,while chaos is a kind of apparent randomness whose origins are entirely deterministic.
Mathematics relies on both logic and creativity, and it is pursued both for a variety of practical purposes and for its intrinsic interest. For some people, and not only professional mathematicians, the essence of mathematics lies in its beauty and its intellectual challenge. For others, including many scientists and engineers, the chief value of mathematics is how it applies to their own work. Because mathematics plays such a central role in modern culture, some basic understanding of the nature of mathematics is requisite for scientific literacy. To achieve this, students need to perceive mathematics as part of the scientific endeavor, comprehend the nature of mathematical thinking, and become familiar with key mathematical ideas and skills.
ReplyDeleteBased on my own understanding math is incredibly important in our lives and, without realizing it we use mathematical concepts as well as the skills we learn from doing math problems, every day. The laws of mathematics govern everything around us and without a good understanding of them one can encounter significant problems in life.
ReplyDeleteIn physics, symmetry breaking is a phenomenon in which small fluctuations acting on a system crossing a critical point decide the system's fate, by determining which branch of a bifurcation is taken. To an outside observer unaware of the fluctuations, the choice will appear arbitrary.The terms spontaneous symmetry breaking and dynamical symmetry breaking both refer to the phenomenon previously discussed, in which the theory has a continuous invariance but the ground state does not.
ReplyDeleteRABUGA, JOHN ROVIE C.
CHAPTER 1
ReplyDeleteI learned that mathematics is not only about numbers, but also about life and everything else about us. Also mathematics is also like science, it creates a beauty about the life and connects everything in it.
Base on my comprehension by the book I have perused it is about the mathematicians sees about nature. The mathematician relate arithmetic to the nature by their differents example of developments and appearance. That have excellence in such animals like nature that is hard to see in our every day lives.
ReplyDeletechapter 2
ReplyDeletemathematics isn't about examine, it can envision or foresee how a wide range of framework will work due to math.
I discover that math ensembles scene with comparative proof and speculations that in the event that you set up together it will make changes
ReplyDeleteMathematics is one of the relevant subject that students have. Some of people might find it irrelevant or highly difficult but it wouldn't change the fact that math is like a languge itself. In everyday, we use math in every single thing we do such as paying for fair (monetary value is justified through numbers). In this chapter I learned that aside from improving our knowledge in numbers, math also improves our crytical thinking and that is by making us think beyond the box. Imagine what's impossible and make it possible. It may seem futile at first but when applied or done with the proper process, math proves us that solving problems is not that hard and also experimenting is.
ReplyDeleteBea Izza T. Medina
Thus he begins the book by describing just some of nature’s patterns: the regular movements of the stars in the night sky; the sixfold symmetry of snowflakes; the stripes of tigers and zebras; the recurring patterns of sand dunes; rainbows; the spiral of a snail’s shell; why nearly all flowers have petals arranged in one of the following numbers 5, 8, 13, 21, 34, 55, 89; the regular patterns or ‘rhythms’ made by animals scuttling, walking, flying and swimming. (Olivo Adrian)
ReplyDeleteMy opinion in this chapter as we all know any change will happen over time to time never stop for anyone. The change might be positive or negative. The only thing that really matter is whether you are able to accept and face the change,in a way the upcoming change and plan for action wherever possible.
ReplyDeletechapter 1
ReplyDeleteI discovered that math isn't just about numbers, yet in addition about existence and everything else about us. Additionally mat is likewise similar to science, it makes a wonder about the life and associates everything in it
Camille Carrillo
chapter 2
ReplyDeletemath isn't about look , it can imagine or predict how a wide scope of system will work because of math.
Camille Carrillo
chapter 3
ReplyDeletebefore , I constantly partner Mathematics with numbers, yet I wasn't right. mathematics isn't just about numbers. It is additionally about verifications. This part caused me to understand that even mathematicians submit botches. In the event that evidences are worked in the premise of a mistaken actuality, everything will be tossed into uncertainty. That is the reason throughout the years, mathematicians figured out how to be exceptionally evaluative of confirmations
Camille Carrillo