Conserved Means Entropyless
Have you ever wondered what “conserved” truly means when it comes to physics?
Conserved means entropyless or syntropic. Conserved means that all of the entropy in the system has gone to zero and ceased to exist.
So, what is entropy?
Entropy is a catch-all term that is used to describe a variety of different physical phenomena.
Entropy is the aging process, which means that entropy consists of all the different clocks or timing mechanisms that are built into physical matter or a physical atom. Entropy is exclusively a physical phenomenon. Entropy doesn’t exist at the quantum level in the Ageless Realm, or the Conserved Realm, or the Entropyless Realm.
Entropy is often defined as a transfer of heat from a hot system to a cold system. NO heat or NO thermodynamics, then NO entropy. There is NO entropy at absolute zero, both at the physical level and at the quantum level. Entropy goes to zero and ceases to exist, when the temperature or heat goes to absolute zero and ceases to exist.
Entropy is also mass or resistance to acceleration. A transdimensional or non-physical system, that has NO mass or NO resistance to acceleration, has NO entropy. That means that a transdimensional system, or a quantum system, or a massless system, or a non-physical system is conserved because it is entropyless. When mass goes to zero, entropy goes to zero.
Entropy is purely a physical phenomenon. Entropy doesn’t exist at the quantum level in the Quantum Realm or the Massless Realm. Whenever mass or resistance to acceleration goes to zero, entropy goes to zero and ceases to exist. This truth is called the Quantum Law of Thermodynamics, which states that there is no mass, no resistance to acceleration, no thermodynamics, and therefore NO entropy at the quantum level in the Transdimensional Non-Physical Realm. Entropy doesn’t exist at the quantum level, which means that everything is conserved at the quantum level.
Powerful. Logical. Rational. Obvious. Simple. Real. True.
These ideas are demonstrably true. By studying the equations for heat and entropy, one can see with his own eyes that this is true.
The equation for heat (Q):
Q = mcΔT
The typical equation for entropy:
S = Q/ΔT
Put the equation for heat into the equation for entropy, and then solve for entropy, in order to find another powerful and true definition for entropy:
S = mcΔT/ΔT
Solving this equation, we get the following: S = mc.
Entropy (S) is the heat storage capacity of mass (mc). Simple. Parsimonious. Logical. Real. True.
Entropy is mass’s heat storage capacity. No mass, no heat, or no heat storage capacity, then NO entropy. Entropy (S) goes to zero whenever mass (m), heat (Q), thermodynamics (Q or T), temperature (T), or mass’s heat storage capacity (mc) goes to zero.
Scientists lie, but the equations don’t lie.
S = mc.
Entropy is mass’s heat storage capacity. Entropy goes to zero when mass goes to zero. This is one of the greatest scientific discoveries in the whole universe, due to its explanatory power.
Conserved means entropyless.
True Definitions for Entropy
Here we have presented five true and demonstrable definitions for entropy.
- Conserved or Syntropic or Exergic is the antonym for Entropy. Conserved means entropyless. Entropy means non-conserved. Entropy, mass, thermodynamics, and heat are not conserved. This is the Ultimate Law of Thermodynamics, which tells us what is not being conserved. Conserved means entropyless or syntropic. Conserved means that all of the entropy in the system has gone to zero and ceased to exist. This scientific truth explains why we exist. Energy is conserved. The Quantum Realm or the Transdimensional Non-Physical Realm is conserved.
- Entropy is the aging process or the different clocks that are built into a physical atom. Entropy doesn’t exist at the quantum level in the Transdimensional Realm, or the Quantum Realm, or the Ageless Realm, or the Conserved Realm. Conserved or Syntropic means eternal and everlasting. Entropy is not conserved. Entropy is temporary.
- Entropy is the transfer of heat from a hot system to a cold system. NO heat, then NO entropy. When heat or temperature or thermodynamics goes to zero, then entropy goes to zero. When the temperature is absolute zero, then the amount of entropy in the system is absolute zero, whether we are talking about a transdimensional system or a physical system.
- Entropy is mass or resistance to acceleration. NO mass, then NO entropy. Whenever mass goes to zero and ceases to exist, entropy goes to zero and ceases to exist. This is obviously true because it has been experienced and observed. Photons or quantum waves are obviously massless, heatless, chargeless, entropyless, conserved or pure energy, and have NO resistance to acceleration. Photons, quantum waves, virtual particles, thoughts, and superconductors function best and most efficiently at absolute zero, where entropy has gone to zero and ceased to exist. This is what has been experienced and observed.
- Entropy is mass’s heat storage capacity. S = mc. No mass, no heat, or no heat storage capacity, then no entropy. This is obviously true. The equations don’t lie. Scientists lie, but the equations don’t lie. This is one of the greatest scientific discoveries in the universe due to its explanatory power. It explains everything that has ever been experienced and observed. It explains why we are here and why we exist. Everything at the quantum level or the massless level or the entropyless level is being conserved, in one form or another. Entropy is purely a physical phenomenon. Entropy ceases to exist at the quantum level, or the massless level, or the conserved level. Entropy is not conserved.
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The Mass-Based Definition for Entropy
Here are the details for the mass-based definition for entropy:
Q = mcΔT
Heat (Q) is equal to mass (m) times that mass’s heat storage capacity (c) times the change in temperature (ΔT).
S = Q/ΔT
Entropy (S) is equal to heat (Q) divided by the change in temperature (ΔT). Combining these two equations into one, we get the following equation. Notice that the temperature (T) is irrelevant, because the temperature cancels out.
S = mcΔT/ΔT
Solving this equation, we get the following: S = mc.
Entropy (S) is the heat storage capacity of mass (mc).
Simple. Parsimonious. Demonstrable. Replicable. Verifiable. Logical. Conservative. True.
This is the mass-based definition for entropy. It’s there in plain sight just waiting for someone to find it and present it to the universe.
Notice that the temperature (T) is irrelevant, because the temperature cancels out. This process works and this equation holds true no matter what the temperature might happen to be. It even works at absolute zero Kelvin (T or K = 0). Everything continues to function perfectly fine at the quantum level, even at absolute zero. In fact, by studying photons and superconductors, we observe that absolute zero maximizes the efficiency and functionality of quantum objects such as photons, quantum waves, superconductors, virtual particles (thoughts), and quantum fields. Absolute zero is maximum efficiency and maximum order at the quantum level thanks to the Quantum Fields and the Conservation of Energy.
S = mc
This simple equation for entropy is possibly the greatest scientific discovery of all time. It’s demonstrably true. It falsifies the second law of thermodynamics, which claims that entropy is conserved. Entropy is NOT disorder as the second law of thermodynamics erroneously claims. Entropy is mass’s heat storage capacity. No mass, then no entropy. No heat, then no entropy. Mass, heat, entropy, resistance to acceleration, and physical matter are NOT conserved. Their amount is constantly changing. Only the underlying energy is conserved.
c = the specific heat capacity of the mass under consideration
m = mass
Entropy (S) is mass’s heat storage capacity (mc). No heat storage capacity, then no heat. No mass and no heat, then NO entropy. NO thermodynamics, then NO entropy. When temperature goes to absolute zero, entropy goes to absolute zero. Simple. Logical. Parsimonious. True. Science doesn’t get any better than this.
This is what has actually been experienced and observed.
Entropy (S) equals mass (m), particularly the heat storage capacity of mass (mc). Entropy is mass’s heat storage capacity (S = mc). Entropy is also resistance to acceleration or mass. This is the mass-based definition for entropy. No mass, then no entropy. It’s that simple.
Conserved means entropyless.
According to the Ultimate Law of Thermodynamics, mass, heat, entropy, and thermodynamics are NOT conserved, whereas, everything in the Ageless Realm, the Massless Realm, the Transdimensional Realm, or the Quantum Realm is conserved in one form or another. According to the Quantum Law of Thermodynamics, there is no entropy and no thermodynamics at the quantum level in the Transdimensional Realm or the Massless Realm. This is obviously true, or we wouldn’t exist in the first place.
Mark My Words
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