"Abbas Mashally ® "All Rights Reserved" 2010 ©" "Imagine somewhere in our universe an utterly strange world." "A place where time could both speed up and slow down." "From where we could journey into the past, and the future." "Somewhere time could even split in two." "Incredibly, this is no alien world." "It's our world." "And it's all around us." "Now, for the first time, science is enabling us to see what for thousands of years has remained hidden." "The true nature of time." "We live in a world governed by time." "From the tiniest of cells to the most distant of stars our entire universe is subject to the beat of a constant clock." "And because time is everywhere, we think we know it." "We know that it's regular and it moves in one direction." "We know that it's universal and eternal." "And we know that it never ever stands still." "But how can we be so sure?" "How much of what we think we know about time is really true?" "In this programme" "I want to get to the bottom of what time really is." "And in doing so I'll be challenging some of our most cherished beliefs." "As a theoretical physicist it's this hidden time that has always fascinated me throughout most of my professional career." "I'm going to explore the very limits of our universe in order to uncover just what time really is." "And in the process" "I'll be revealing an astonishing secret." "Nothing less than our ultimate destiny." "The future of the universe and the fate of time itself." "Of all our assumptions about time one of the most obvious is that time is regular." "That a minute will always be a minute." "For everyone, everywhere." "Here in the Swiss Alps" "I'm searching for a something that challenges this assumption." "Something that if time was as regular as we think it is, shouldn't exist at all." "Well, I'm now eleven thousand feet above sea level and I'm out of breath and actually feeling a little bit dizzy." "Now the bad news is" "I till have a ways to go to reach the top of the Alps because what I'm looking for is something that becomes more plentiful the higher you go." "And this is what I've come to see." "It's a particle counter telling me that the air around me is full of tiny particles called muons." "They come from all the way out there." "Muons are short lived particles, formed when cosmic rays from space collide with the upper atmosphere." "But the big mystery is how they come to be down here on Earth." "Because with a lifespan ofjust two millionths of a second, muons should only live long enough to travel a few hundred metres." "And yet, here they are, after ajourney of several miles." "Something that shouldn't be possible." "So what exactly is going on?" "The answer to this mystery, the reason why muons can reach us at all is so extraordinary that from the moment it was first proposed it literally rewrote the rule book of time." "Less than a hundred miles from the Alps lies the affluent city of Berne." "In the early 1900s this was home to a young German physicist who would change the way we looked at time for ever." "His name was Albert Einstein and he's been my hero for the past fifty years." "Shortly after arriving in Bern" "Einstein was offered a job" "This building was once the office of intellectual property." "It was here that Einstein spent seven years as a pan effort" "Assassin technical merits of inventions ranging from refrigerators to radios" "One technology in particular had a huge impact on the young Einstein." "Between 1901 and 1904" "The number of pad and applications per electrical clock devises almost double." "and that's because time is past becoming the issue of the day." "This is the famous clock tower which stood in the middle of Bern, for the past 200 years." "Einstein was in walk pass this clock every day on his way to Bern." "for that then clocks were so in accurate" "That this one and one in Zurich is nearly 75 miles away." "But it different as much as four minutes." "but the growth of Europe's railways." "Such time discrepancies were becoming not just inconvenient." "But also dangers." "Going out by stabilize in a number of serious train crashes." "All of a sudden time was on everyone's lips." "but for Einstein this new world of trains and clocks." "was more than just a token time." "It was an inspiration." "In 1905 in this, his first floor apartment," "Albert Einstein put the finishing touches to his radical new theory." "Special Relativity." "One of five papers published by Einstein in 1905," "Special Relativity would make us think about time in a completely new way." "Einstein's astonishing claim was that time was not regular at all." "It could beat at different rates." "Time changes depending on relative speed." "Imagine for a minute that my tram is capable of travelling at phenomenal speed." "Just a fraction less than the speed of light." "According to Special Relativity, the rate at which time flowed on this speeding tram would depend on whether you were onboard." "Or looking in from the outside." "So while for me it would seem as though time was passing perfectly normally." "For me, sitting on the pavement, assuming I could somehow peer inside the tram, time would assume a totally different quality." "Looking in from the outside" "I'd sense that time onboard the tram was passing much more slowly." "That's because, according to Einstein, the faster an object moves the slower its time will run to someone observing from the sidelines." "In other words, time can vary." "It's all a matter of speed." "And that explains the mystery of how our muons reached the Earth." "Because muons travel near the speed of light relative to the Earth, their clocks have slowed down." "So much so that they exist long enough to reach the Earth and be detected." "Time for our muons has stretched." "It beats very differently to the way it does for us." "for hundreds of years." "Time had been seen as fixed and inedible." "None other than the grand father of modern sciences" "So Isaac Newton had pronounce the time exists, in and of itself." "without reference to anything external." "But we do not know the time is in set at a fixed rate." "Time is not absolute." "Now the effects of Special Relativity are so small that they have no impact on our daily lives, but the fact that they are there at all has changed everything." "Because if time is relative, if time is flexible, then our belief in the immutability of time is wrong." "And if we can be wrong about something as basic and as fundamental as this, then in what other ways might we be mistaken?" "Time has intrigue humanity to wiled history." "More than fifteen hundred years ago," "A former Heritage turn Christian dished" "More than 3D's on time," "That's as provocative today." "As when he was first written." "What we have here is the first thing of translation." "of Augustine's Confessions" "Augustine was a full century philosopher and few Len some." "and a conviction is his wrote a biography." "But besides relating incidence in his life" "It also contains some fascinating reflections on the nature of time." "and he starts with a very common place reflection." "But time consists of, time past, time present, and time future." "But says Augustine the future does not yet exists." "The past no longer exist and the present takes up no time at all." "so how then can time exist" "although one and half thousand years later," "The mysteries of time continue to preoccupied philosophers." "It is one thing most of them are in agreement abut." "time is very paradoxical" "It involves an oceans of eternity, of infinity, of beginnings and endings, all these are extreme difficult in oceans to grasp." "But that doesn't mean to say that we have to punish temper order." "It seems to me that we can still make sense of time." "As being an ordered diminution of events." "Even philosophers accept the time is predictable and ordered." "The things can only be in one place, at one time." "Do either of you play cards?" "I play a little poker." "You play poker?" "So you can shuffle cards, can you?" " Oh no, no." " No?" " I let someone else shuffle." " So do you shuffle like this?" " Yeah." " Yeah?" " That's called the overhand shuffle." " Okay." "'Cause if you don't shuffle cards that well, you can try - try this one." "This one's pretty good." "It makes a complete mess of the deck of cards." "Some cards go back to face and some of them are like back to back." "Our complete trust in temporal orderis the reason why we delight in the obvious impossibility of magic tricks." "Back to face, the face to back." "As I said it makes a total mess." "I'll just show you." "Some of the cards there like face to back not very good for playing poker or blackjack but if you press the button here." "Press the button." "Oh... fingers, they call come out the right way which is rather handy." " Oh, that's so good." " That's pretty cool, isn't it?" "Pretty good." "My job as a magician is to manipulate people's faith." "Hi, how you doing?" "Can I stop you for a moment?" "People realise that things can't disappear and reappear." "I'm going to run through the cards and you say stop wherever you like." "If you do yourjob properly you can make it look as though two things can be in the same place at the same time." "And to that end essentially you can make it look as though you're manipulating space and time." "You ever seen magicians use these before?" "Yeah, I've seen them." "I'll show you a trick with two of them, okay." " So can you hold your hand out for me?" " Yeah, sure." "A classic way of demonstrating the manipulation of space and time can be done using the sponge ball trick." "It's a hundred years old, but it's great." "But essentially you take a ball in your own hand and the spectator holds a ball and you can do it in such a way that you can - it looks as though you can manipulate space of time and it looks as though the ball has disappeared from your hand," "so when the spectator opens their hand suddenly they have two." "That ball has vanished from your hand and it's reappeared in theirs." "But, believe it or not, this sort of behaviour isn't always an illusion." "Beneath the surface of our on sense world lies another world where magical things really do happen." "Where the impossible can be made real." "And where time can perform the most incredible tricks." "That place is inside the atom." "For years scientists had assumed that in our universe there was nothing smaller than an atom." "The very word atom in fact comes from the Greek word for indivisible." "Then in 1897, an Englishman named J. J. Thompson made an astounding discovery, that inside the atom there were even smaller particles called electrons." "Thompson's discovery opened the door to the amazing world inside the atom." "A world where everything, including time, behaves in a truly alien fashion." "Physicist lan Walmsley has been studying this microscopic world for almost thirty years." "When we get inside the atom to this world of subatomic particles the ideas that we have about the way the world works completely have to change." "We can't think in the same sorts of come on sense terms that we think of in everyday experience." "In fact, this subatomic universe is so strange that time becomes chaotic." "A startling discovery that emerged from the study of light." "Light consists of individual particles called photons, known for their wave-like properties." "Waves have a very interesting sort of phenomenon." "It's called 'interference.'" "When two waves come together they can add together and reinforce one another, or they can cancel one another out." "And this interference is a ubiquitous property of all waves, notjust water waves but also light waves." "But in the early 1900s, scientists noticed something very odd about these light waves." "Something that proves that time isn't always ordered." "In this reworking of a classic experiment, once described as 'the most beautiful in physics,' single photons or particles of light are fired down a darkened tube towards a camera, one at a time." "So we have here a very simple apparatus." "It consists of a light bulb at this end and a camera at the other end that can register the light and in between the light encounters a pair of slits etched onto this piece of glass through which the photons can pass" "on their way from the source to the camera." "The purpose of the experiment is to study the behaviour of photons as they travel from one end of the tube to the other." "To begin with, the individual photons are sent through just one of the slits." "Each of these dots arriving represents a single photon so most of them are coming along this point, some of them lie above or below that point, but the distribution is nice and smooth." "Now the second slit is opened up and the experiment repeated." "Each single photon must still pass through one of the two slits, so the results should still be the same." "Classical logic would say that what we would get when we open both slits is just the sum of these two detection patterns." "But what we actually find is this." "An interference pattern." "Something that should be impossible." "What that implies is that the single photon is somehow going through both slits at the same time." "It's not making a choice as to go through one or the other, but is going through both simultaneously." "In other words, each photon exists notjust in two places, but also in two times." "So we have this very strange notion that this single photon can be in two different places at once." "It could be delocalised." "But we can think also of a single photon being in two different times." "So both space and time have become delocalised and fragmented." "On the surface, we feel time is ordered." "But that belies a different reality." "We are totally unaware of the chaos and unpredictability that lies deep within the atom." "Not surprisingly, our understanding of time comes from our everyday experience." "And it's for this reason that we cling to yet another of our assumptions about time." "That it never stands still." "In fact one thing that sets us apart as humans is the knowledge that time waits for no man." "That time doesn't merely exist but is constantly flowing." "But one discovery proved that this isn't always the case." "TV Doctor Tom Bolton of the University of Toronto made more than forty observations of Cygnus X One." "In 1971 astronomer Tom Bolton embarked on a project to observe a mysterious x-ray source called Cygnus X One." "An object assumed to be a distant neutron star." "I started to look at Cygnus X One because I thought it would be a good opportunity to determine the mass of a neutron star" "and nobody had done that yet." "Cygnus X One, some eight thousand light years away, is one half of what's called our binary system." "The binary system is a pair of stars that are gravitationally bound to each other, er, just like the Earth is bound to the sun and they orbit er, about their mutual centre of mass." "By measuring the speed and orbit of X One's binary partner," "Tom was able to work out the mass of his neutron star." "But the figure he arrived at was far, far bigger than the one he'd been expecting." "That turned out to be about ten solar masses, with a significant error, but still way too big to be a neutron star." "So I had to start thinking about what are the alternatives if it's not a neutron star." "There was only one possibility that fitted the data." "But it was something that few people believed actually existed." "As far as I knew the only object that would fit that description and produce x-rays was a black hole." "So I said so." "Tom's discovery caused a sensation." "The first incontrovertible proof that far from being a figment of people's imagination, black holes were in fact very real indeed." "Since their discovery twenty-five years ago we now know that the universe is teeming with them." "But it's how black holes affect time that make them so unusual." "Black holes are so massive that their gravitational pull approaches infinity." "And according to Einstein's second theory, that of general relativity, very intense gravity slows time in a similar way to moving at very high speed." "But if you were to watch someone fall into a black hole you'd notice that their time was beginning to slow down." "So much so that at the very centre where the gravitational pull is infinite, time would stop altogether." "Time would cease to exist." "That there are places where time can come to a grinding halt seems frankly incredible." "But that's only because we live in such a uniform corner of the galaxy." "Warmed by a benevolent sun, far from any extremes of gravity." "Beyond our everyday environment, time is very different." "Not only is it irregular, it's also chaotic." "It can even stand still." "But for all its vagaries there's one thing that time never seems to do." "And that's turn back on itself." "=====================" "How old time may be hard to define." "There is one truth that has always been beyond out." "and that is time only have one direction." "and that is fools" "Which, when you think about it, is a little odd." "After all my physical environment offers me enormous freedom." "In my three dimensional world, I can go any place I choose." "But with time my freedom to move about is confined to one direction." "Of course in our imagination it's a completely deferent story." "in 1895 assured novel by a former school teacher name H. G. Wells" "Brought to life one of humanities oldest dreams." ""So I travelled, stopping ever and again, in great strides of a thousand years or more, drawn on by the mystery of the earth's fate, watching with a strange fascination the sun grow larger and duller in the westward sky," "and the life of the old earth ebb away." "in the early a birth of 19 century, that were stories that involved time travel." "or kind of visions of or off in the future," "What tended to be deferent was, these word from kind of explained." "In terms of setup a dream or seek a natural a conscious." "or visions or something like that." "Wells story called the Time Machine." "It took the idea of time travel." "and made it seem scientifically viable" "I am afraid I cannot convey the peculiar sensations of time traveling." "They are excessively unpleasant." "There is a feeling exactly like that one has on a switchback." "of a helpless headlong motion!" "When he is describing the physical sensation of time travel." "and it was talked abut a night mass sensation." "and excessively unpleasant and so on and you know there is a sort of staccato." "Sort of flushing by of day and night, is been incredibly did nauseating and disorienting." "is very very powerful for the reader because it does make you believe." "You are in a kind of real flush and blood body." "and it gained it if into sectional." "The physics of time travel and the philosophy of time travel." "with the biology of the real person." "The Time Machine was an a normal success." "Offering people a glimpse," "Of what would be liked to make the ultimate escape." "They escape from time." "Even from death." "Questions of time are obviously incredible in put into us in our every day life." "and questions of mortality, and mortality is obviously the kind of the sort of the horizon of time." "for each of us individually, and I think that anything that is allows us to have a sense of escaping." "That kind of inevitable in our time is quite appealing." "and now after of been treated a science faction," "It seems that time travel could be science fact." "The thing is the laws of physics don't have any problems with time running backwards." "So we physicists believe that itjust might be possible to build a time machine." "The only obstacle we face is one of engineering." "That's because the theoretical blueprint for our time machine already exists." "A machine that's secret lies deep within our microscopic universe." "At the tiniest sub-atomic level, the fabric of space and time becomes so unstable that it starts to behave like a foam." "Its surface alive with tiny bubbles momentarily popping in and out of existence." "We call this quantum state, 'the space time foam.'" "It's thought that contained within this foam are objects called wormholes." "Tiny passageways between two points in space and time." "The secret to building a time machine is to stabilise the space time foam long enough to make one of these wormholes permanent." "And the way we do that is by subjecting it to enormous amounts of energy." "I'm standing one hundred metres above what will be, when it's finished, the world's most powerful particle accelerator." "This machine, scientists hope, will help to unlock some of the secrets of the mysterious world of sub-atomic particles, the building blocks of our universe." "This tunnel is twenty-seven kilometres in circumference and it houses the accelerator." "Inside this chamber two beams of sub-atomic particles will be travelling in opposite directions, boosted to near the speed of light." "As the protons within the beams collide, they shatter into even smaller particles, releasing bursts of energy roughly half a million times greater than those inside a nuclear explosion." "But even the most powerful accelerator on this planet can't produce enough energy to stabilise a space time foam." "To do that, our particles would have to be moving even faster and that would require an accelerator of truly enormous proportions." "So big in fact we would need to build it in space." "Now we know that if you smash particles together at extremely high velocities, eventually you create something called a 'quark gluon plasma.'" "An extremely hot high energy cauldron of matter with a temperature exceeding ten trillion degrees." "By adding even more energy, blasting the plasma with lasers we can finally stabilise space time foam long enough to pluck out a miniscule wormhole." "The next task is to enlarge it and even that is scientifically possible." "In 1948 a Dutch physicist named Hendrick Casimir introduced us to a mysterious new force called 'negative energy.'" "Complete with anti-gravitational properties." "So far we can only create minute quantities of this in the laboratory, but one day if we can create enough negative energy, we might be able to increase the size of a wormhole." "And this is how we think our wormhole would look." "Each end a sphere held in place by an electric field invisibly connecting two points in space and time." "By subjecting one end of the wormhole to a huge gravitational field, we could bring its clock almost to a stop." "This turns our wormhole into a time machine." "Both ends existing in the same place, but at different times." "Our ability to build such a machine is still some way off." "Butjust knowing that time travel is possible is enough to turn yet another of our assumptions on its head." "Time isn't necessarily one way." "It can move back as well as forewords." "within the fabric of our universe lay the means to a temporal freedom." "That until now has been only existent with our imagination." "So what will we make of a chance to cross through space and time." "To visit the past perhaps even to change it" "I have here two tickets to take you back in time." "Where ticket bring me back in time it must offer." "You could change an incident in your past." "Would you prepare to can do it?" "I think the Titanic." "I probably go back to my teen years." "What abut telling the captain by the way, it is nice per coming." "Would you do that and interfere?" "I think that if you actually change them for the better." "At the moment, it will actually expand something for deposit of the future." "I would alter because an age playing down and that's not our age at all." "These are like a one way ticket, and you couldn't come back." "In the present to reduce then you want to take that trip." "I would love to go back and not be able to come back too." "what I know and my children," "I do not believe I take the ticket." "I as brothers forget." "Living with the past fixed and the future unknown." "It makes us feel secure in time." "Change that and you change everything." "So far we've seen how time, which appears to be so regular, can in fact be quite flexible." "We've seen how time can behave in such unpredictable ways." "And as we understand more about time it's even becoming possible to solve perhaps the greatest mystery of them all." "Whether time is eternal." "Over the last hundred years it's becoming increasingly clear that our universe, and hence time itself, had a beginning." "But that raises another question." "If time had a beginning will it also have an end?" "Humanity has long pondered the origins of time and the universe." "Almost every religion that has ever existed has had its own creation myth." "When I was a child" "I remember being so confused about how we got here and that's because I was brought up in between two faiths with two very different views on creation." "On the one hand there was Christianity." "At Sunday school I learnt all the Old Testament stories." "Among them the Book of Genesis, describing how the universe came into being in a single moment of divine creation." "On the other hand, my parents were both Buddhists." "From then" "I discovered that Buddhists believe the universe is timeless, without either beginning or end." "For some time" "I continued to struggle with these two seemingly incompatible doctrines." "Either the universe had a beginning or it didn't." "Either time is eternal or it isn't." "It's only in the last forty years or so that we think we've found the answer." "An answer that comes from the furthest reaches of space." "The amazing thing about looking up into the night sky is that it's like gazing at a cosmic map of the past." "Every planet, every star is like a snapshot taken when their light first left them." "The further the star, the more ancient its origins." "But for centuries the limits of the universe were a total mystery until one man peered further into the heavens than ever before." "In doing so he gave us a better understanding notjust of our universe, but of time as well." "Perched high in the hills above Los Angeles in southern California, is the Mount Wilson Observatory." "In 1919 it saw the arrival of an ambitious new astronomer named Edwin Hubble." "Don Nicholson remembers Hubble from regular visits to Mount Wilson as a young boy." "Hubble, certainly as an astronomer was a very skilled, a very dedicated, very effective astronomer." "He was highly respected er, for his professionalism." "Hubble's arrival more or less coincided with completion of the world's then most powerful telescope." "Capable of looking further into space and hence further back in time than ever before." "Most astronomers felt that our galaxy was the universe and for many that even the solar system was at the centre of that universe." "But on the evening of October 4th 1923," "Edwin Hubble noticed a tiny speck deep within the Andromeda nebula." "Before that time there was no telescope in the world, for example, that could resolve individual stars in these spiral nebula." "And so there was belief that they were simply gaseous objects in our own galaxy." "But Hubble was able to prove that his speck was indeed a star and incredibly that it was more than a million light years away, much too far to be part of our own galaxy." "In one stroke" "Edwin Hubble had destroyed the notion that our milky way was the sum total of the universe." "And if the universe was much bigger, then it also had to be far, far older." "But how much older was still a mystery." "Every Thursday a whole bunch of fans congregate at this drag strip to enjoy the sights, the smells, the sounds of these muscle cars." "These unmistakeable sounds are created by the same phenomenon that enabled Edwin Hubble to make his second great discovery." "The sound of a car will always depend on the direction it's travelling." "A car moving towards me sounds high pitched." "But a car moving away from me sounds lower pitched." "This shift in pitch, known as 'the Doppler Effect' is due to the fact that at the front of a moving car sound waves are compressed." "While at the back they're stretched out." "And what's true of sound is also true of light." "As light moves away from us its waves too become stretched." "By measuring this effect called 'the redshift' in one galaxy after another," "Edwin Hubble realised that not only were they all incredibly distant they were all moving away from us." "In other words the universe was expanding." "If the universe was expanding, then it had to be expanding from something." "From an event whose soundtrack is still with us today." "What I'm listening to now are some of the sweetest sounds ever." "The sounds of creation." "Waves of light from the beginning of time have been stretched so much that we can't really see them anymore." "Instead we can pick some of them up on the radio in the form of static." "Although he didn't know it at the time" "Hubble's discovery that the universe was expanding led to one of the most important breakthroughs ever made about time." "The Big Bang." "Once there was nothing." "Not even time." "But 13.7 billion years ago it seems that this nothing became everything." "When a tiny dot of infinite density spontaneously expanded at a phenomenal rate." "Giving birth to the universe and everything within it, including time." "But if time had a beginning does that also mean that time will have an end?" "Just as many cultures have their own creation myth, so most also have their own take on how the universe will end." "In the 11th century, the ancient Norse myth of Ragnarok predicted that the universe and time along with it, would end in a desperate battle between the forces of good and evil." "It was believed that this apocalypse would be preceded by something called, 'the winter of winters.'" "An epic ice age, during which all the stars would gradually vanish from the sky." "How the universe will end continues to preoccupy us over a thousand years later." "In 1988, physicist Saul Perlmutter joined this quest to discover the fate of the cosmos." "It seems like a really philosophical question er, is the universe going to last for ever or is it some day going to come to an end?" "But in just the last - last few decades we finally have the - both the intellectual tools that Einstein gave us and the practical measurement tools." "Saul believed that the destiny of our universe was linked to the rate at which it was expanding." "Since the 1930s we've known that the universe is expanding and everybody's understanding was that it would be slowing down in that expansion because all of the stuff in the universe would gravitationally attract all the other stuff and so would slow the expansion down little by little." "This would result in the universe collapsing back in on itself in something called, 'the Big Crunch.'" "Bringing time to an abrupt and violent halt." "Are there any decisions coming up?" "Are there any other ones that we're actually going to have to decide something about?" "To discover just when the universe and time would end," "Saul and his team began to hunt for extremely rare objects known as 'supernova.'" "The aftermath of exploded stars." "There are two things you need to know about a given supernova when - once   you've discovered one." "First its peak brightness." "That tells you how far away it is and hence how far back in time the explosion occurred." "The other thing is you want to look at its colour through its spectrum and the more it's been shifted to the red - it's called Red Shift, the more the universe has stretched since the time of that explosion." "There is only one problem with supernova." "and that's finding them." "We set our own explorer a few times from millenium." "and the given galaxy, and they look if you any downs notice." "So we have to invent ways to find them." "Over here is design intents that can bring." "Large numbers of galaxies, into a similar image." "and now if we look for thousands, and thousands of little galaxies on a similar image" "We could find the one which their explosions have a curved." "Painstakingly," "Saul and his team begin to discover one supernova after another." "After several years of the - of the supernova hunting we had built up a sample of some forty two supernova and we were finally ready to go back   to ask that question that we began the project with." "What is the fate of the universe?" "But the answer they came up with came as something of a shock." "When we finally graphed the results we found a very surprising result." "Apparently the universe is not slowing down." "It was actually speeding up and that was the big surprise." "In other words the universe wasn't headed for a big crunch at all." "So what will its fate be?" "Saul's discovery has helped scientists to map out how time and the universe will evolve." "An incredible space epic separated into five long ages." "The first of these was the Primordial Age, starting with the Big Bang and the birth of time." "Lasting only 350 thousand years, that's long gone." "We're now 13.7 billion years into the second age and it's only just beginning." "We live in something called the Stelliferous Era." "An epoch that has brought us not just the stars and the planets, but also every speck of matter in the universe." "One day, a hundred million, million years from now, a mere finger click in the life of the universe, this golden age will come to an end." "In its place will come the Degenerate Age." "When the last stars burn out and die." "When the planets fall from their orbits and in the darkness of space matter begins to decay." "After a truly unimaginable length of time only black holes remain." "A fourth age that far exceeds all the time that has ever gone before." "But even black holes don't last for ever." "Little by little their thermal energy will leak away." "Until ultimately they too disappear." "So what does this mean for the future of time?" "Does the death of our universe mean that time is destined to run out, or is time really eternal, without end?" "Even as the last black hole evaporates, a fifth and final age is beginning." "The age of the photon in which time finally fragments into total disorder." "When all that remains of our cosmos are invisible, indestructible, low energy light particles." "For Saul Perlmutter, this cold chaos represents the ultimate destiny for time." "This particular picture of the - of the future of the universe, and we don't know if this will be the final answer, would have time lasting for ever." "There'll be no end to the universe in this particular scenario." "So it seems as if both religious traditions that I grew up with are in some sense correct." "Time is eternal as the Buddhists believe, but time also came into being at a precise moment, and that fits well with the story of Genesis." "As we look out to the vastness of time that lies ahead we begin to notice something truly incredible." "As we move from one age of the universe to the next we see that the nature of time itself begins to change." "Time evolves." "Ultimately the strange and chaotic behaviour that we can only glimpse inside the atom may in general become the nature of time throughout the entire cosmos and if we could somehow hang around to experience it we might not even recognise it as time at all." "Because just as particles can be in many places at once, so in our quantum cosmos we might uncover many universes, each one with a time of its own." "So this new perspective of time over the whole life of the cosmos, makes us look at our time from a new point of view." "The time that we feel passing, the time that we know and trust, may be something of an illusion." "An illusion that allows us to make sense of our place in this tiny corner of the cosmos." "Abbas Mashally ® "All Rights Reserved" 2010 ©"