Sunday, June 28, 2015

What time is it?

"Sometimes I think
When I see trees from a moving train, 
It seems
They go in the opposite way. 
But in reality
The trees are standing still. 
So can it be
That all our centuries, 
Row upon row, are standing still? 
Can it be that time is fixed, 
And we alone are in motion?" 

Javed Akhthar, "Waqt" 

Below is the above beautiful poem on time (Waqt) recited by the poet Javed Akhthar with his wife Shabana Azmi translating it to English:



Who among us have not agonized over the passing of time? But what is this unyielding force we call time anyway? Everyone has an idea what time is but defining time is much more complicated. Time and the flow of time have fascinated poets, philosophers and scientists from the dawn of humanity. In fact one could even make an argument that human ability to perceive the passing of time, our ability to remember and recall the past and our propensity to worry and plan about the future probably defines our species and human consciousness more than anything else. Even though other species may have a rudimentary understanding of the passing of time, human consciousness is so exquisitely attuned to the passing of time. While the primitive men divided their days approximately based on the position of the sun and other natural phenomenon, once we found out how to make accurate clocks that can measure time at ever smaller intervals, our perception on the passing of time have become ever more acute.  

Till Einstein came along and completely changed our understanding of what time is, every one - whether it was a Newton or an average Joe- thought of time (and space) as this fixed, immutable back ground up on which the cosmic drama played out. However the modern understanding of time has not really been understood by many, including myself, till I started reading many excellent books on the topic, listed at the end of this blog. Here is my attempt at summarizing what I have been reading on time. The books at the end of this blog is recommended for those interested to understand this most elusive and fascinating of concept in more depth. The blog is organized in to several sub headings, each addressing a salient question on the nature of time.

What is meant by space-time and how is it different from just time?


We don't think time and space has anything to do with each other - and until about 100 years ago these entities - space and time - were indeed considered separate domains. Space as this nearly infinite expansion through which things move; and time as this almost mythical and all pervasive entity in which everything including our own life plays out - from the irretrievable past, to the fleeting present, to the as yet unknown future, time reigns supreme over our very being. Then came Einstein. Of all his major and path breaking contributions to science, it would be his truly revolutionary re branding of what time is that will be most likely to be remembered for posterity. He was the first person to truly grasp that time is truly a 4th dimension of what would be called "space time".  Time and space were created together and will remain bound to each other for eternity - there is no space without time and even more strangely, there is no time without space.

A Relativistic version of Javed Akhtahr's poetry:


So are we, like the poet Javed Akhthar beautifully wrote, passing through space time which stands still while we move? What Einstein showed with his remarkable theory of Special Relativity is that nothing moves through time and space independently – instead we move through "space time" – which is an inseparable 4 dimensional entity. The great cosmic drama as well as our own individual life is played out in "space time". It took some time and several books for me to finally "get" it but it is a pretty amazing and in fact quite a simple idea and only needs some basic geometry to grasp. Below is an ultra simplified version of what moving through space time means:

Think of a simple graph paper, with an X and a Y axis. To simplify let us change the three spatial dimensions to just one - X. Now let us make the Y axis as the "time" axis. Or think of a cross road with one road going straight in the North - South axis (time or Y axis ), one going straight in the East - West (space or X axis) direction. If you travel exactly East West, your movement along the North South axis would be 0 and vice versa. But you can also travel in a slanted direction some time (like North-East direction) where you will be displaced along both the X and Y axis - but for a shorter distance along the both North and East axis than if you were traveling straight North or straight East - right? Just imagine yourself driving a car.

Now for moving in the spatial dimension, there is a cosmic speed limit that just can’t be broken – and this speed limit is the speed of light (denoted as C). Note here that this is a universal constant and the speed of light (C) is one of the few things that are not "relative" in relativity - everyone irrespective of their frame of reference and speed would always agree that the speed of light C as the same; surprisingly however for this to work people will have to disagree on the measurements of space as well as the passing of time, and this forms the core principle of Special Relativity. 

Assume something is moving at speed (C) in the X axis (meaning through space), it has no movement along the Time (Y) axis. That is another way of saying photons, that is moving at
speed "C" don't "feel" the passing of time as all its movements are along the "space" dimension of space time and none in the time dimension.

If something is stationary in the "space dimension" (our tiny movements barely count when compared to C) then all the movement occurs in the Y or time axis. This is what we perceive as the flow of time. It is not like new time is being created for us to move through - all of space time - past, present and future - is all there already, just that our "light cone" has not yet reached a "future" part of this light cone. But as we are "standing still" in the space dimension our only movement through space time is along the time axis - and we are constantly being moved along our light cone, at a rate of one second per second. (To be more specific, we are moving at one Plank second increments - a time so small, there are more Planck seconds in once second than there are seconds since the beginning of Big Bang. As we will discuss later, time, like space, matter and energy, is also "quantized" and granular and not continuous.) 

So unlike what our intuition suggest, it is not like the past is lost forever and future not happened yet - it is more like we can't go back to our past light cone and we have not yet interacted with the already existing future light cone. Assume moving through time is like travelling north on highway I-95, and assume "north" represent your future along the time axis. Say you are travelling from Washington towards Boston and currently you are in New York. Your past is Washington; your present is New York, your future is Boston. Surprising as it may sound, just because you can't go back to Washington (your past), it does not mean "Washington" does not exist anymore, also just because you have not reached Boston yet (your future) that "Boston" does not exist. Similarly the past, present and future are all spread out in the 4 dimensional tapestry of space time. An imaginary being (call it God if that makes you feel better) that is outside of space time could potentially see the whole of space time - past, present and future - spread out, and everything moving through this 4 dimensional vista. See the picture below that shows the past, present and future parts of what is technically called a "light cone" of space time. 


Let us come back to Javed Alhthar's poetry - is past, present and future just illusions of our mind, are we just consciousness moving through a fixed and immutable space time? Another very simple "thought experiment" could help to clarify this further: Assume you are at the beach today sunbathing. Let us also assume there is another conscious being who lives in a planet around a star 5 light years away, who has a super sensitive telescope that could see a person lying on a beach on earth. It is possible for him to see you, lying on the beach, if he looks towards earth 5 years from now! Which means your "Present day" is in his "future". Let us reverse roles now - assume you have a super sensitive telescope with which you could see an alien sun bathing (or "proxima centauri" bathing!) - and assume you are seeing this alien today, what you are actually seeing is the past, say some thing the alien did some thing like 5 years ago (if the alien is 5 light years away). Now the alien could be a billion light years away - and then what you are seeing is what the alien did 1 billion years ago. We do agree that when we look at the night sky with a powerful telescope and see a star billions of light years away we are actually seeing the past. 

In fact one can extrapolate that thought experiment even further - assume a super civilization who lives 1 billion light years away would develop a technology to capture extremely detailed space time data 1 billion years from now - aiming at earth, it should be theoretically possible for that alien to recapture every moment of some one who is living on earth right now, but it would be happening "right now" according to their clocks - every single detail of a person long dead will appear to be preserved in their present! In other words the changes we create on our light cone never really goes away. In other words, what happens in Vegas does not stay in Vegas - it stays as permanent imprints on our light cones. On a more positive note, nothing of the past is ever totally lost.

So the past is not lost; and present is not fleeting; and future is already there - it is just that we have not yet crossed our own future light cone. Our "past" light cone is not actually gone from the universe but is going to be in some one else's future. In other words, while our past and present are permanently imprinted on our light cone, and while our future light cone is already there, it is just that we are yet to interact with it. We can thus show that, even without resorting to any kind of space travel or moving at relativistic velocities, the concept of "past, present and future" is much more fluid than what our intuitions suggest.

To recap again on the concept of moving through "space time" - see the graph below. The green line shows movements along space time. The left most graph represent how we - and most everything else - move through space time. As stationary objects (for all practical purposes the minimal movements we make when compared to the speed of light can be considered to be 0), all our movement are along the Y (time) axis, at 1 second per second.  The right most graph represent how photons move through space time - all it's movement are along "space" axis, none through time, so time is standing still for a photon. The middle graph represent movement of particles moving along at near relativistic velocities - say at 90 percent of C - it moves along a diagonal in the graph, in both space and time. The faster in spatial movement, the slower in the time axis.




Also note here the equivalence of moving through space and time can also lead to equivalence between mass and energy. Mass–energy equivalence arose originally from special relativity as a paradox first described by French mathematician and philosopher Henri Poincare. It can be shown with few simple steps, once we assume things move through space time and not space, that energy "E" and mass "m" is reliant on the speed of light "c" and described by the famous equation, E=mc^2

What is meant by "Time is relative?"


The above graph also explains what we mean by saying that time is relative. In our every day experiences time is absolute. Whatever else may change, time moves forward at the same constant rate for at the same rate for every one - we automatically assumes there is a "universal clock" and time moves the same all throughout the universe. 

But as the graph shows time (how much one move along the Y axis in the above graph) depends on one's speed of movement along the spatial dimension.  Every thing has to move through "space-time" - it's actually not possible to move through space and time separately. One has to move through time and through space simultaneously. Also note that there is no state of absolute rest. If you are not moving through space, then you are moving through time. One could also say that when we move through space-time by 1 second to the future, it is equivalent to a spatial movement of 300,000,000 meters by a photon.

If you could extend the ideas of Special Relativity to a photon, you might conclude that its (theoretical) clock never beats. But if the photon did have a brain, it would be thinking the problem lies with your clock and that its clock is just fine. Instead, it would seem to the photon that all of space had shrunk down so small that it (the photon) occupied all of it. It would arrive "everywhere at once", not because of its non-beating clock, but because of its peculiar view that it occupies the entire universe at once.

Thus for even the earliest photons ever created - the photons that make up the cosmic microwave background, no time would have passed in the photon's reference frame since it was emitted almost 13.7 billion years ago. Similarly for something moving close to the speed of light but not the speed of light itself, the time that has passed would be correspondingly low. We could calculate that an imaginary traveler moving at about 99.99999999999999999999999999999999973% the speed of light would have completed a 13.7 billion light year (in our time and space scale) journey in a mere second according to his own watch.



Does Time have a beginning?


In one form or another, the issue of the ultimate beginning has engaged philosophers and theologians in nearly every culture. It is entwined with a grand set of concerns, one famously encapsulated in an 1897 painting by Paul Gauguin: D'ou venons-nous? Que sommes-nous? Ou allons-nous? “Where do we come from? What are we? Where are we going?” The piece depicts the cycle of birth, life and death—origin, identity and destiny for each individual—and these personal concerns connect directly to cosmic ones. We can trace our lineage back through generations, back through our animal ancestors, to early forms of life and proto life, to the elements synthesized in the primordial universe, to the amorphous energy deposited in space before that. Does our family tree extend forever backward? Or do its roots terminate? Is the cosmos as impermanent as we are with its own cycles of birth, life and death as the Hindu philosophy suggests?


The ancient Greeks debated the origin of time fiercely. Aristotle, taking the no-beginning side, invoked the principle that out of nothing, nothing comes. If the universe could never have gone from nothingness to "somethingness", it must always have existed. For this and other reasons, time must stretch eternally into the past and future. Christian theologians tended to take the opposite point of view. Saint Augustine contended that God exists outside of space and time, able to bring these constructs into existence as surely as he could forge other aspects of our world. When asked, “What was God doing before he created the world?” Augustine answered, “Time itself being part of God's creation, there was simply no before!”

When applied to the whole cosmos, Einstein's famous theory of General Relativity (celebrating 100th year this year) would have predicted the universe would have to be either contracting or expanding. But when Einstein formulated his theory, even Einstein, like everyone else at the time, thought of the universe as eternal and never changing, so he added a "cosmological constant" to his equations so the universe would be static – something Einstein later called his “biggest mistake”. A few short years later American Astronomer Edwin Hubble proved that the universe was actually expanding, as General Relativity would have predicted years before if Einstein did not introduce the “cosmological constant” to fit with people’s perception of a static universe. So naturally if the universe is expanding, then one could also easily play this cosmic drama backwards, where all of space and time will shrink to a singularity – which we now call the Big Bang. Now almost universally accepted, Big Bang (more specifically Inflationary Big Bang) is our best explanation on the origin of the universe - all of space, matter, energy and most importantly time itself started at this point. Big Bang singularity was not only a singularity of all of space, matter and energy of the universe to a point, some thing which we can barely imagine, it was also the singularity of all of time (which I personally have a hard time even imagining). Time as we know it was created at Big Bang. The almost universal question that would follow this statement is then "what happened before Big Bang"?

Was the "Big Bang" really this beginning of time? Such a question seems almost blasphemous as cosmologists insisted that it simply made no sense—that to contemplate a time before the big bang was like asking for directions to a place north of the North Pole. But developments in theoretical physics, especially the rise of string theory and ideas of parallel universes have changed our perspective. The pre-bang universe has become the latest frontier of cosmology. As far as we currently know our our Universe contains about 1011 galaxies, 1023 stars, 1080 protons and 1089 photons (particles of light). That is a lot of stuff, but looks like even that is a tiny microcosm, a microscopic bubble in an even more unfathomable multi verse.  

As we play cosmic history backward in time, the galaxies all come together to a single infinitesimal point, known as a singularity. Each galaxy or its precursor is squeezed down to zero size. Quantities such as density, temperature and space time curvature become infinite. But this is a polite way of saying our most powerful equations - of relativity and quantum mechanics - breaks down at this point of the very beginning of space time. Conditions at time Zero of the big bang were so extreme that no one yet knows how to solve the equations. Nevertheless, string theorists have hazarded guesses about the pre-bang universe. Two popular models are floating around.

One of the pre–big bang scenario combines something called T-duality with the better-known symmetry of time reversal, whereby the equations of physics work equally well when applied backward and forward in time. The combination gives rise to new possible cosmologies in which the universe, say, five seconds before the big bang expanded at the same pace as it did five seconds after the bang. Yet the rate of change of the expansion was opposite at the two instants: if it was decelerating after the bang, it was accelerating before. In short, the big bang may not have been the origin of the universe but simply a violent transition from acceleration to deceleration. 

The beauty of this picture is that it automatically incorporates the insight of standard inflationary cosmology - namely, that the universe had to undergo a period of acceleration to become so homogeneous and isotropic. In the standard theory, acceleration occurs after the big bang because of an ad hoc inflation field. In the pre–big bang scenario, it occurs before the bang as a natural outcome of the symmetries of string theory.

According to the scenario, the pre-bang universe was almost a perfect mirror image of the post-bang one. If the universe is eternal into the future, its contents thinning to a meager gruel, it is also eternal into the past. Infinitely long ago it was nearly empty, filled only with a tenuous, widely dispersed, chaotic gas of radiation and matter. The forces of nature, controlled by the dilation field, were so feeble that particles in this gas barely interacted.

As time went on, the forces gained in strength and pulled matter together. Randomly, some regions accumulated matter at the expense of their surroundings. Eventually the density in these regions became so high that black holes started to form. Matter inside those regions was then cut off from the outside, breaking up the universe into disconnected pieces.

Inside a black hole, space and time swap roles. As noted above, the center of the black hole is not just a point in space but an instant in time. As the infalling matter approached the center, it reached higher and higher densities. But when the density, temperature and curvature reached the maximum values allowed by string theory, these quantities bounced and started decreasing. The moment of that reversal, called a big bang, was later renamed a “big bounce.” The interior of one of those black holes became our universe.

The other leading model for the universe before the bang is the ekpyrotic (“conflagration”) scenario. Developed five years ago by a team of cosmologists and string theorists —the ekpyrotic scenario relies on the idea that our universe sits at one end of a higher-dimensional space and a “hidden brane” sits at the opposite end. The two branes exert an attractive force on each other and occasionally collide, making the extra dimension shrink to zero before growing again. The big bang would correspond to the time of collision. In a variant of this scenario, the collisions occur cyclically. Two branes might hit, bounce off each other, move apart, pull each other together, hit again, and so on. 

Continued on What time is it? Part 2


References and suggested for further reading:

1) My previous blog: How fast does Brahma moves?
2) A Brief History of Time: Stephen Hawking
3) From Eternity to Here: Sean Carroll
4) Origins: Cosmos, Earth and Mankind: Reeves, Rosnay, Simonnet and Coppense
5) The First Three Minutes: Steven Weinberg
6) A Universe from Nothing: Lawrence M. Krauss
7) The Meaning Of It All: Richard P. Feynman
8) The Accidental Universe: Alan Lighhtman
9) Time Reborn: Lee Smolin
10) Our Mathematical Universe: Max Tegmark
11) Cosmic Jackpot: Paul Davies