Entropy Measures the Passage of Time (2023)



And god said, let there be lights in the firmament of the heaven to divide the day from the night, let them be for signs for seasons days and years.

Genesis 1 14., at least we can measure time, intervals seconds hours centuries, etc.

This is because of god's, gracious forethought and I'm giving credit here.

This is.

Dr, henry morris, writing here.

This is because of god's, gracious forethought in providing means for doing this.

He was not a blind watchmaker as some evolutionists have called him.

He actually created time in the beginning and the credits given here to.

Dr, henry morris.

Then he set the sun and the moon in the sky and made the earth to assume a global shape.

The earth is not flat and to rotate on an axis making the measurement of time in days possible next.

He placed stars in the far heavens.

There'll be lecture on each of those in various locations and combinations and the earth to orbit around the sun, enabling us to tell how many days make up a year.

Then once the earth's rotational axis was tilted that made seasons measurable.

So we can at least identify time durations in days and years with their seasons, and we can subdivide or combine these in whatever ways we find convenient minutes decades, summer winter, etcetera and all of that credited to.

Dr, henry, morris, number two, very quickly.

Entropy measures the passage of time time does pass syndicated columnist sydney, harris commented on the entropy question.


That is the universe is running down.

We are running down any exception to that.

But at least we're running.

I mean, even when we're sitting we're running it's ticking, all right there's a factor called entropy in physics, indicating that.

The whole universe of matter is running down and ultimately will reduce itself to uniform chaos.

But before that happens, the creator is going to intervene aren't you glad so jesus is going to intervene in that chaos.

This follows from the second law of thermodynamics, which seems about as basic and unquestionable to modern scientific minds as any truth can be the entropy principle applies at least as much to open systems.

Dr, morris continues to say as to close systems in an isolated, real system shut off from external energy.

The entropy or disorganization will always increase, it gets worse and worse and worse in an open system, such as the earth receiving influx of heat energy from the sun.

The entropy always tends to increase.

And as a matter of fact will usually increase more rapidly than if the system remained closed or were left to itself, an example would be a tornado sweeping through a ghost town, let's for sake of time, get to this time, negates evolution as the cause of life because of the passage of time evolution is negated for that.

And many reasons two recent research and brian thomas with whom I communicated this week generated this statement.

This is very important.

Two recent research studies performed by secular, scientists support genetic entropy, meaning that not only are stars burning out.

But living systems are running down.

These new studies use demographic models of human populations over known historical time and geological space that we can see and measure the resulting data showed a very recent massive burst of human genetic diversification, mostly associated with genetic entropy running down.

One author stated the maximum likelihood time for accelerated growth was five thousand.

One hundred fifteen years ago, whoops whoops, I thought I I thought evolution taught that about two and a half million years ago.

Dawn man found a girl, oops.

So the human population can only be scientifically measured back to a little over 5.

000 years.

This place is the beginning of the period of genetic decline close to the genesis flood when the earth began its repopulation through noah's family and humans rapidly diversified and continued to run down that's.

The whole point continued to run down.

And here is a chart showing the imagined evolutionary time, 50 000 years of genetic diversification.

But the real measured time to be just like 5100 years and the chart showing the decline in the age and exponential decay in the age of life spans on the earth.

Number four christ appeared at a precise point in time, we're talking about time.

We admit the time is relative in the sense that what we see happening on the sun didn't just happen.

It happened earlier.

So there is a relative relationship rather than absolute.

It didn't just happen.

It happened a while ago, but number four christ appeared at a precise point in time, galatians, four, four and five.

But when the fullness of time was come, god, sent forth.

His son made of a woman made under the law to redeem them that were under the law that we might receive the adoption of sons.

Matthew 20 28, even as the son of man came not to be ministered unto, but he came to minister and to give his life, a ransom for many that's.

The reason he came now here is a short dissertation from college.

President mark milioni, I know him very well.

Matthew 28 28.

He repeats, even the son of man came not to be ministered unto, but to minister and give his life.

A ransom for many.

President miliani says, jesus didn't, come just to teach, although he taught that wasn't the purpose of his coming.

If he had come to teach, he would have established a university and lived to a ripe old age.

He didn't come just to heal, although he healed many people had jesus come primarily to heal.

He would have established a hospital and lived to a ripe old age.

Jesus didn't, come to set up some new ethical moral system.

If he had, he would have put on the robes of a judge and established a supreme court and lived to a ripe old age.

But in the fullness of time, he came to die, you know, mike told me a couple of days ago.

He said, I left nasa disappointment to them disappointed my children kids like to be close inferred in that sacrifices, we'll never know ourselves fully.

Thank you mike.

And he said, I came to operate as you asked me to do.

But the ultimate reason I came is to have a part in the reaching of souls that I in this ministry can reach through what I'm doing did you say that, yes, you are right on conclusion.

He hath made everything beautiful in his time.

Also he had set the world in their heart that is within their physical body, literally a consciousness of the passage of time.

So that no man can find out the work that god maketh from the beginning to the end, only god, notice that here's time verses two through eight I'm quoting.

Dr, henry morris here and I'll, give credit a moment.

Ecclesiastes 3 appears a remarkable listing of 28 times arranged in 14 pairs of opposites.

That is the time to be born time to die and I'm.

Ready? Are you ready? Amen? The entire section is introduced by god's definitive statement to everything there's a season and a time to every purpose under the heaven since all our times are in thy hands.

Psalm, 31 15, it is fitting to recognize that the appropriate time for every purpose under heaven is his time, god's time.

Thus everything that god has made is in fact, beautiful when accomplished in his time we may not understand many things in our time for no man can find out the work that god maketh from the beginning to the end.

Nevertheless, when god made us, he set the world in our hearts.

So that very the very deepest roots of our nature assure us that god exists and god cares that's.

All that happens to us if accepted and applied according to god's word becomes beautiful.

And we know that all things work together for good to them that love god to them where they're called according to his purpose you.


Entropy Measures the Passage of Time? ›

Entropy is one of the few quantities in the physical sciences that require a particular direction for time, sometimes called an arrow of time

arrow of time
The arrow of time, also called time's arrow, is the concept positing the "one-way direction" or "asymmetry" of time. It was developed in 1927 by the British astrophysicist Arthur Eddington, and is an unsolved general physics question.
https://en.wikipedia.org › wiki › Arrow_of_time
. As one goes "forward" in time, the second law of thermodynamics
second law of thermodynamics
The second law of thermodynamics is a physical law based on universal experience concerning heat and energy interconversions. One simple statement of the law is that heat always moves from hotter objects to colder objects (or "downhill"), unless energy in some form is supplied to reverse the direction of heat flow.
https://en.wikipedia.org › Second_law_of_thermodynamics
says, the entropy of an isolated system can increase, but not decrease.

Is entropy a measure of time? ›

The most important conclusion of this definition is that entropy, being a state function, is not a function of time. Entropy does not change with time, and entropy does not have a tendency to increase. It is very common to say that entropy increases towards its maximum at equilibrium.

What is entropy the measure of? ›

Specifically, entropy is a measure of disorder and is zero for a perfectly ordered system. The concept of entropy thresholding is to threshold at an intensity for which the sum of the entropies of the two intensity probability distributions thereby separated is maximized.

How can you relate entropy to time travel? ›

The enthalpy after time travel is increased over that before time travel. The entropy after time travel is greater than that before time travel. There is an implied difference between the before and after time travel temperatures. This difference is a function of a wormhole throat temperature.

How entropy defines the flow of time itself? ›

Explain how entropy defines the flow of time itself. Entropy increases with time. So if entropy is increasing then the flow of time must be forward.

Does time exist without entropy? ›

So entropy gives time a direction, but time exists whether or not there's entropy. And in our universe, at one end of time, the entropy was low and we called that the past. And the other end of time, the entropy is high, and we call that the future.

What is entropy in simple terms? ›

What Is Entropy? Entropy is a measure of how much the atoms in a substance are free to spread out, move around, and arrange themselves in random ways. For instance, when a substance changes from a solid to a liquid, such as ice to water, the atoms in the substance get more freedom to move around.

What is entropy a measure of quizlet? ›

Entropy is a measure of the disorder of a system.

What is the theory of entropy? ›

Energy & Thermodynamics

The Second Law, also known as The Entropy Law, stipulates that in an open system, energy always flows from a higher concentration to a lower concentration in order to reach thermodynamic equilibrium.

What is an example of entropy? ›

Melting ice makes a perfect example of entropy. As ice the individual molecules are fixed and ordered. As ice melts the molecules become free to move therefore becoming disordered. As the water is then heated to become gas, the molecules are then free to move independently through space.

Does time move forward because of entropy? ›

Our sense of time passing is just what entropy does to our brain." The arrow of time that arises from entropy brings us a long way closer to understanding why time only goes forward.

Can entropy reverse time? ›

Rubino's team looked at a quantum superposition with a state that evolves both backward and forward in time. Measurements showed that more often than not, the system ended up moving forward in time. But for small entropy changes, the system could actually continue to evolve both forward and backward in time.

How does entropy in the universe change over time? ›

The entropy of the universe increases during a spontaneous process. It also increases during an observable non-spontaneous process.

Does entropy break time symmetry? ›

T-symmetry or time reversal symmetry is the theoretical symmetry of physical laws under the transformation of time reversal, Since the second law of thermodynamics states that entropy increases as time flows toward the future, in general, the macroscopic universe does not show symmetry under time reversal.

What is the paradox of entropy? ›

The classical Gibbs paradox concerns the entropy change upon mixing two gases. Whether an observer assigns an entropy increase to the process depends on their ability to distinguish the gases. A resolution is that an “ignorant” observer, who cannot distinguish the gases, has no way of extracting work by mixing them.

Can entropy decrease with time? ›

Entropy is generated everywhere and always (and thus overall increased), at any scale without exception (including life processes, open systems, micro-fluctuations, gravity, or entanglement). Entropy cannot be destroyed by any means, at any scale, and thus, entropy cannot overall decrease.

Why is time an illusion? ›

According to Einstein's general theory of relativity, space and time are tied together, and space-time can bend and curve. "The way to think about it is that that curvature is stretching out time," she says. As time stretches, it slows.

Will the universe end due to entropy? ›

Following the increase of entropy, the dissipation of matter and energy goes on until our universe becomes so infinitely disordered that entropy can no longer increase and events come to an end. This is called the heat death of the universe. Some say that, because things cannot get any worse, nothing happens at all.

Is life due to entropy? ›

And entropy also tends to grow within those structures. This makes entropy, or its absence, a key player in sustaining cosmic structures, such as stars and life; therefore, an early lifeless universe with low entropy is necessary for life here on Earth.

What is another word for entropy? ›

synonyms for entropy

On this page you'll find 12 synonyms, antonyms, and words related to entropy, such as: breakup, collapse, decay, decline, degeneration, and destruction.

What causes entropy? ›

Entropy increases as temperature increases. An increase in temperature means that the particles of the substance have greater kinetic energy. The faster-moving particles have more disorder than particles that are moving slowly at a lower temperature.

What are the two things that entropy can measure? ›

entropy, the measure of a system's thermal energy per unit temperature that is unavailable for doing useful work. Because work is obtained from ordered molecular motion, the amount of entropy is also a measure of the molecular disorder, or randomness, of a system.

Is entropy a measure of energy? ›

Entropy can also be described as a system's thermal energy per unit temperature that is unavailable for doing useful work. Therefore entropy can be regarded as a measure of the effectiveness of a specific amount of energy.

Which phase of matter has the most entropy? ›

When a substance is a gas it has many more accessible microstates and thus have the highest entropy.

What are the three laws of entropy? ›

1st Law of Thermodynamics - Energy cannot be created or destroyed. 2nd Law of Thermodynamics - For a spontaneous process, the entropy of the universe increases. 3rd Law of Thermodynamics - A perfect crystal at zero Kelvin has zero entropy.

What is the classical definition of entropy? ›

In classical thermodynamics, entropy (from Greek τρoπή (tropḗ) 'transformation') is a property of a thermodynamic system that expresses the direction or outcome of spontaneous changes in the system.

What are the basic laws of entropy? ›

The Second Law of Thermodynamics states that unless outside energy is provided, a system will find its entropy (disorder) staying the same or increasing as time goes on. In other words, a system will never get more ordered without outside intervention.

What is the summary of entropy? ›

entropy , Measure of a system's energy that is unavailable for work, or of the degree of a system's disorder. When heat is added to a system held at constant temperature, the change in entropy is related to the change in energy, the pressure, the temperature, and the change in volume.

What is entropy in every day life? ›

Entropy In Everyday Life

“Disorder, or entropy, always increases with time. In other words, it is a form of Murphy's law: things always tend to go wrong!” On a daily basis we experience entropy without thinking about it: boiling water, hot objects cooling down, ice melting, salt or sugar dissolving.

Why can't we go back in time? ›

The simplest answer is that time travel cannot be possible because if it was, we would already be doing it. One can argue that it is forbidden by the laws of physics, like the second law of thermodynamics or relativity. There are also technical challenges: it might be possible but would involve vast amounts of energy.

What happens if time flows backwards? ›

Most of the laws of physics, like gravity and quantum mechanics, are symmetric with respect to time. That means that it doesn't matter whether time moves forward or backwards. If time ran in reverse, all the laws of physics would work the same.

Why can't time be reversed? ›

Most physicists consider the irreversibility of the arrow of time as a consequence of the second principle of thermodynamics, which states that entropy in an isolated system (as the Universe as a whole is) can never decrease.

Does life disobey entropy? ›

We can view the entire universe as an isolated system, leading to the conclusion that the entropy of the universe is tending to a maximum. However, all living things maintain a highly ordered, low entropy structure.

Can the universe reverse time? ›

The time-reversed situation, where you take a room of even temperature and stick a divider in the middle, spontaneously getting a hot side and a cold side, is so statistically unlikely that, given the finite age of the Universe, it never occurs.

Why did the universe start with low entropy? ›

So why was the early Universe so low-entropy? Because it didn't have any black holes. An entropy of S = 1088 kB is still a tremendously large value, but it's the entropy of the entire Universe, which is almost exclusively encoded in the leftover radiation (and, to a slightly lesser extent, neutrinos) from the Big Bang.

Does reversing entropy reverse time? ›

No. As far as I understand the arrow of time (if indeed time actually exists) it is the direction of increasing entropy. If in a closed isolated system (which does not exist except theoretically) if you managed to reduce entropy you would actually, for that system, have achieved a time reversal.

What does entropy mean to living things over time? ›

Entropy is simply a measure of disorder and affects all aspects of our daily lives. In fact, you can think of it as nature's tax. Left unchecked disorder increases over time. Energy disperses, and systems dissolve into chaos. The more disordered something is, the more entropic we consider it.

Did the universe start with high entropy? ›

The answer, perhaps surprisingly, is no. The Universe not only wasn't maximally organized, but had quite a large entropy even in the earliest stages of the hot Big Bang.

Is time reversible on the quantum level? ›

Time in quantum mechanics is rigid, not bendy and intertwined with the dimensions of space as in relativity. Furthermore, measurements of quantum systems “make time in quantum mechanics irreversible, whereas otherwise the theory is completely reversible,” said Renner.

Does gravity reverse entropy? ›

Gravity tries to keep things together through attraction and thus tends to lower statistical entropy.

Is gravity time reversible? ›

Gravity, for example, is a time-reversible force.

What can reverse entropy? ›

Negentropy is reverse entropy. It means things becoming more in order. By 'order' is meant organisation, structure and function: the opposite of randomness or chaos. One example of negentropy is a star system such as the Solar System.

Are black holes the opposite of entropy? ›

Whereas for a black hole, the equal and opposite shifts in energy and entropy come from unknown details of quantum gravity, an equivalent situation exists for any physical system near its extremal limit.

Why do most people find the concept of entropy confusing? ›

Entropy might be the truest scientific concept that the fewest people actually understand. The concept of entropy can be very confusing — partly because there are actually different types.

Why can't entropy be destroyed? ›

Therefore, entropy is always generated (produced) with heat generation, in limit conserved (in reversible processes), and there is no way to destroy entropy, since during heat conversion to work, entropy is ideally conserved, but it is also generated due to real process irreversibilities.

Can humans decrease entropy? ›

An organism that can interact with its surroundings can expel entropy via heat, to gain local order and reduce local entropy. Global disorder still increases, but for that organism, the ability to locally reduce entropy is literally a matter of life and death. An obvious example of this principle is humans.

Does anything violate the second law of thermodynamics? ›

If we consider the case of a refrigerator, too, you can't transfer heat from low to high temperatures to keep the inside of the refrigerator cooled without some external effort. This also shows that the second law of thermodynamics cannot be violated.

Is entropy a measure of chaos? ›

In short, we can define entropy as a measure of the disorder of the universe, on both a macro and a microscopic level. The Greek root of the word translates to “a turning towards transformation” — with that transformation being chaos.

What is the analogy of entropy? ›

A common analogy for entropy is comparing a messy room to a neat one. However, the energy “spread out” the same amount in both cases. It is incorrect to say one room has more entropy than the other.

What is the opposite of entropy? ›

Negentropy is the inverse of entropy. This indicates that things are becoming more ordered. Order is the opposite of randomness or disorder, implying organization, structure, and function. Negentropy can be seen in a star system like the solar system. The inverse of entropy is negentropy.

Does the universe like entropy? ›

The total amount of entropy in a closed system can never decrease. This is often expressed as the universe tending towards disorder. This is considered the most far-reaching and robust law of nature.

Will entropy end the universe? ›

Following the increase of entropy, the dissipation of matter and energy goes on until our universe becomes so infinitely disordered that entropy can no longer increase and events come to an end. This is called the heat death of the universe.

What is an example of entropy in real life? ›

Melting ice makes a perfect example of entropy. As ice the individual molecules are fixed and ordered. As ice melts the molecules become free to move therefore becoming disordered. As the water is then heated to become gas, the molecules are then free to move independently through space.

Why is entropy so hard to understand? ›

Without a direct method for measurement, entropy is probably one of the most challenging concepts in physics to grasp. It is the center of the second law of thermodynamics, as it states that the total entropy, meaning the degree of disorder, of an enclosed system always increases over time.

What is the philosophical meaning of entropy? ›

The greater the entropy of system is, the greater the degree of disorder, chaos, and uncertainty of the system structure will be. Thus, in the most general sense, the entropy value is regarded as a measure of the disorder, chaos, and uncertainty of the system structure.

Why is entropy called time arrow? ›

Entropy is one of the few quantities in the physical sciences that require a particular direction for time, sometimes called an arrow of time. As one goes "forward" in time, the second law of thermodynamics says, the entropy of an isolated system can increase, but not decrease.

Why can't we measure entropy? ›

The reason is that the entropies listed are absolute, rather than relative to some arbitrary standard like enthalpy.

Can you reverse entropy? ›

In a closed system, entropy cannot be reversed. All closed systems will therefore eventually move toward high entropy as changes between events develop. Entropy will undoubtedly fall due to statistical likelihood in the very short future, but this is highly uncommon.

What is the chaos theory of entropy? ›

Entropy is a loss of useful energy and, unfortunately, it keeps increasing. This is the natural way of the universe—unless we push back. This concept of the universe trending toward chaos comes to mind when bad things happen, when order breaks down.

Does life resist entropy? ›

The overall effect is always an increase in entropy. Life occupies only an infinitesimally small portion of the universe, but somehow it managed to produce a method for steadily increasing its own complexity and thus resisting the natural direction of entropy.

What are 3 examples of entropy? ›

Osmosis, melting ice, and a clean room becoming dirty are all examples of entropy at work.

What are the four types of entropy? ›

  • Abstract: Entropy concept was introduced by Clausius 160 years ago, and has been continually enriched,
  • Key words: Thermal entropy; Shannon entropy; Residual entropy; Total entropy; Negentropy.
  • Introduction.

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