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Tag: time

  • Why Does Time Only Move Forwards?

    Why Does Time Only Move Forwards?

    Sometimes, everything falls out of your hands in the morning: the egg lands on the floor instead of the pan, and spoiled milk accidentally ends up in your coffee. In such moments, the thought slips through your mind: “If only I could turn back time and fix this ruined breakfast.” But the arrow of time—as scientists call its unidirectionality—only points from the past to the future.

    Theoretically, if the flow of time went in the opposite direction—from the future to the past—the laws of physics, mechanics, the theory of relativity, quantum field theory, and all the other rules that describe our world would still work just as well.

    For the fundamental laws of nature, it makes no difference in which direction the clock’s arrow moves.

    The entire snag lies in a single rule that distinguishes the past from the future—the second law of thermodynamics. It states that in an isolated system, entropy either remains unchanged or increases. Still unclear? Let’s break it down.

    Entropy is the measure of disorder in a closed system. The more disorder there is, the higher it is. Imagine a new deck of cards, where the cards of each suit are grouped together and arranged in order, from six to ace. When you shuffle them, they end up in a random order. At this moment, the entropy of the deck increases. The same thing happens when you drop an egg on the floor or add milk to your coffee.

    So why doesn’t the egg gather itself back into the shell, and why doesn’t the coffee separate from the milk? Because in this case, entropy would decrease, which would violate the second law of thermodynamics, according to which it can only grow or stay unchanged.

    Of course, you can sort the cards in the deck again or clean up the broken egg. But to restore order, you need to exert effort. In the process of this action, you increase the entropy of the surrounding environment—and, as a result, the entropy of the entire universe. Thus, the second law always remains in effect.

    We know that the universe is constantly expanding, and its entropy is inexorably growing—as a result of these processes, it is becoming more chaotic and “diluted.”

    It’s logical to assume that everything began at a point in the past when the entropy of the universe was low. Scientists believe that this point was the Big Bang.

    13.8 billion years ago, our universe was infinitely dense and hot—this state is called a cosmological singularity. When the Big Bang occurred, entropy began to rise, and we still feel its effects to this day. No one knows for sure why the early universe ended up in such an orderly singularity and what happened before that. Nevertheless, cosmologists believe that the flow of time moving from the past to the future is a consequence of that initial state.

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    It is likely that the arrow of time, like many things that have a beginning, will eventually have an end.

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    One popular hypothesis suggests that the universe, along with time, will come to an end when a “heat death” occurs. This hypothesis was first proposed by physicist Rudolf Clausius in 1865. He extrapolated the second law of thermodynamics to the entire universe.
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    One day, all the stars will burn out, and black holes will evaporate. The universe will expand to the point where only emptiness remains. At this moment, it will reach a state of equilibrium, close to maximum entropy.

    It is possible that by then, the direction of time will disappear. But until that moment, we must accept that reversing time is not an option.

  • The Reason Leap Second Is Abolished

    The Reason Leap Second Is Abolished

    UTC has kept pace with the Earth’s rotation through the use of leap seconds. However, this will no longer be the case, as the General Conference on Weights and Measures (CGPM) has decided that no leap seconds will be added after 2035. While this decision was taken to avoid disruptions and anomalies during the transition to digital systems, it could lead to a discrepancy of about one minute between global time and the Earth’s rotation by then.

    In Use Since 1972

    A day (in theory) consists of 86,400 seconds because the Earth’s rotation determines the speed of our time. However, the actual speed of the Earth’s rotation varies.


    The Moon in particular has a long-term retarding effect, in addition to seasonal, seismic, and climatic factors. The moon’s gravity causes an increase in day length of about 1.78 milliseconds per century. In contrast to this model, by 2020, the Earth’s rotation had accelerated significantly.

    UTC has added a total of 27 leap seconds since its inception in 1972.

    Since 1972, leap seconds have been used to keep the official Universal Time (UTC) synchronized with the Earth’s rotation: if the deviation is 0.


    9 seconds or more, an additional second is added before midnight on New Year’s Eve or mid-year. Thus, the last minute of last year has 61 seconds. The last time something like this happened was on New Year’s Eve 2016.

    Inconsistent and Perhaps Risky

    The issue, however, is that introducing a leap second is not trivial for many digital systems that rely on atomic clocks. Just before the changeover, the clocks can be adjusted to halt the seconds for a second, add an extra second (for a total of 61 seconds), or slow down the fundamental clock pace. This has been dealt with in many ways up until now, depending on the nation, the firm, or the organization. For instance, Google progressively reduce the additional second in the 24 hours before the changeover.

    Therefore, the leap second might cause temporary discrepancies among the different time standards. Such little delays, even if measured in microseconds, may have major repercussions in the digital and financial sectors. The Global Positioning System (GPS) system does not account for leap seconds, although the Russian GLONASS system does.

    Prior to this point, leap seconds were used to synchronize global clocks with Earth’s rotation.

    Also, in 2020, the Earth briefly sped up its spin, which might theoretically lead to a negative leap second. This is the first time in history that global time has been shortened by a single second. Therefore, it is not apparent whether this is even theoretically possible.

    100 Years Pause for Leap Seconds

    These considerations led to the CGPM’s recent decision to alter the leap second system. It has been debated for a long time how much time should be added or subtracted from universal time to account for Earth’s rotation. This is due to the fact that essential digital infrastructure is always susceptible to major breakdowns. That’s why the organization went ahead and increased the allowable variance.


    For example, after 2035, no further leap seconds will be added for at least the next 100 years. World time and the Earth’s rotation may diverge by up to one minute during this period. However, in normal life and for most time-sensitive applications, this wouldn’t make a difference since the time zones and the system of summer and winter time entail significantly bigger variations anyway.

    The rotation of the Earth is the standard by which we measure global time.

    It’s Unclear How This Will Be Implemented at This Time

    Global organizations are also tasked with settling on a threshold for tolerable variation by 2035. This largely includes the International Telecommunication Union (ITU), a United Nations institution responsible for regulating the technical elements of telecommunications, in addition to the General Conference on Weights and Measures (GCWM). As such, this group would be tasked with making the halt for the leap second and any potential new rule a reality.

    It was still not a unanimous decision at CGPM. As a result of the necessity for more time to implement the technological changes, Russia chose to postpone the leap second until 2040. But the decision made during the General Conference is still in effect for the time being. It remains to be seen whether and when it will be put into operation and if other nations will thereafter follow suit.

  • Does Time Go Faster as You Age?

    Does Time Go Faster as You Age?

    Most people believe that time moves faster as they become older. Especially in retrospect, it seems that this is the case. The past few years of our lives appear to have gone by far too fast, while the first five years of our lives feel like an eternity. However, does time really seem to fly by faster as we age, or are we merely experiencing mental refraction?

    New Year’s Eve is coming closer and it seems like only yesterday that we were celebrating the previous New Year. From adulthood onwards, time often seems to fly by. When we reflect on our youth, though, we often find that elementary school or the graduation trip we took before entering high school seemed to endure an eternity. The same thing often happens when we talk to acquaintances.

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    Is it possible that how we see the passage of time changes as we become older?

    Time in a peculiar way

    Research has demonstrated that our sense of time changes as we become older. However, the time period is also a factor. People of all ages have a consistent perception of the duration of shorter time periods, such as weeks, months, or up to a year.

    When participants were asked to estimate how rapidly time had gone in the past ten years, however, a distinct pattern emerged: older individuals estimated a quicker rate of time passage.

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    It seems that one’s sense of time does not change much between the ages of 50 and 60. Age does undoubtedly have a role in shaping how we perceive the passage of time.
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    The conundrum of holidays

    As a result of various influences, we do not always judge the same intervals of time to have the same duration. The extent of our past experiences is one factor, while the extent to which we reflect on past events or make estimates of present duration are other factors.

    Claudia Hammond, a psychologist, coined the term “holiday paradox” to characterize this phenomenon.

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    According to this theory, if we have a lot of novel or interesting experiences within a certain time period, we will remember that time period as being longer than it really was. Time moves quickly during this period. The day appears short and unremarkable when we get up, but when we reflect on it that night, it feels lengthy and jam-packed.

    Conversely, when we are bored or doing routine tasks, the effect is the polar opposite. It might seem like an age when you’re waiting for the train or doing mundane tasks at the workplace. On the whole, however, we remember very little about that day. In hindsight, this makes the time period appear shorter.

    More knowledge and wisdom

    The neurobiology of the human brain provides an answer. It makes a more in-depth record of the novel or emotionally charged encounters than routine ones. The same holds true for our memories, with the novelty and significance of unique events being rewarded with a higher retention rate. Time periods in our past will always be relative to the number of memories we have of them.

    This is also why we remember our youth as being so lengthy in hindsight. Simply said, we gained more knowledge and experienced more things for the first time during that period than at any other moment in our lives. That’s why the first field trip always feels so long and the final one looks like it went by in a flash.

    Take a break from your normal routine

    However, this seemingly contradictory brain activity has the benefit of allowing us some control over how time seems to pass. For the simple reason that when we go out of our comfort zones and try something new, that experience becomes etched indelibly into our brains.

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    For this reason, it might be useful to adopt preventative actions now if we want to have fond memories of a long and fruitful life in old age. We could go out and see the places, learn a new hobby, or try skydiving instead of sitting around and watching Netflix.

  • What Is Time? And How Can It Be best Defined?

    What Is Time? And How Can It Be best Defined?