What’s The Diffent's Between A positve And negative Universe Is One Dead Or Alive?

Answer 1

"First Law of Thermodynamics: Energy of the total universe is conserved.

Second Law of Thermodynamics: Entropy of the total universe is conserved.

“The law of Yin and Yang is the natural order of the universe, the foundation of all things, mother of all changes, the root of life and death. In healing, one must grasp the root of disharmony which is always subject to the law of Yin and Yang.”

First Postulate: The Total Universe is composed of two symmetric systems, a Positive Universe and a Negative Universe. Both universal systems occupy the same space-time.

Second Postulate: Energy can flow between both universal systems, but the total energy in the Total Universe is conserved.

E (Total Universe) = E (Positive Universe) + E (Negative Universe)

Third Postulate: Entropy can flow between both universal systems, but the total entropy in the Total Universe is conserved.

S (Total Universe) = S (Positive Universe) + S (Negative Universe)

Fourth Postulate: Gravity dictates the direction of entropy change (time).

Fifth Postulate: Life on earth exists only in the Positive Universe.

Formulae:

Energy (U) = Heat (Q) + Work (W)

Entropy (S) = Heat (Q)/Temperature (T)

Entropy (S) = Boltzmann’s constant (k) x logarithm of number of microstates (ln Omega)

Alternative definitions of entropies commonly used:

Positive entropy (S) = k ln D

Negative entropy (-S) = k ln (1/D)

Where D is a measure of disorder, and the reciprocal 1/D is a measure of order. In the Positive Universe that we inhabit, the original Second Law of Thermodynamics states that for irreversible processes, the entropy of the enclosed system must increase, or put in another way, all real processes move towards a state of maximum disorder.

Case Study 1: Creation of the Universes

Before the beginning of creation, there was no presence of energy or entropy.

E (Total Universe) = 0 (before creation)

S (Total Universe) = 0 (before creation)

At the point of creation, to conserve energy and entropy, the universe divided into two symmetric polarities, a Positive Universe and a Negative Universe.

E (Total Universe) = E (Positive Universe) + E (Negative Universe) = 0 (at creation)

E (Positive Universe) = - E (Negative Universe)

S (Total Universe) = S (Positive Universe) + S (Negative Universe) = 0 (at creation)

S (Positive Universe) = - S (Negative Universe)

In the Positive Universe, at the point of creation, a hot point source existed in only a few very high-energy eigenstates, the system is highly ordered (large negative entropy). To conserve symmetry, the Negative Universe is highly disordered (large positive entropy); the negative energy occupies almost every possible energy eigenstates in the Negative Universe at the point of creation.

The negative energy-mass contained in the Negative Universe produces gravitational repulsion that causes the space-time volume to expand. Because both universes occupy the same space-time (energy-entropy) volume, the Positive Universe experiences the same universal expansion.

Case Study 2: Particle Wave Duality

An energy particle, such as a photon, exists in both universes simultaneously. If the particle is unobserved in the Positive Universe, it has no interactions with the surroundings, and hence can be treated as an isolated system (W = 0).

E (Total Universe) = Q/T (Positive Universe) + Q/T (Negative Universe)

The particle can travel through the vacuum of space at Absolute Zero temperature without transfer of heat, and hence it can be thought of as having an equivalent temperature of Absolute Zero (T = 0). In the Positive Universe, this results in an infinitely positive entropy; the particle exists in all available microstates of the universal system. The manifestation of this affect is that in the Positive Universe, an unobserved non-interacting energy particle behaves like a wave that occupies all of space-time. To conserve symmetry, the particle has infinitely negative entropy (complete order) in the Negative Universe, which manifests itself as a single energy point source, a photon.

The classical two-slit diffraction experiment shows that an unobserved energy particle can pass through both slits simultaneously like a wave, forming a diffraction pattern (large number of microstates, large positive entropy) on an observed screen placed after the slits. Because an unobserved non-interacting energy particle in the Positive Universe occupies the entire space-time as a wave, it can pass through both slits simultaneously. If the energy particle is interacted with and observed before it reaches the slit, the observed energy-mass collapses in the Positive Universe to a single pinpointed source, a photon particle. The observed energy particle can now only pass through one of the slits producing a single point image (highly ordered, large negative entropy) on the screen. To conserve symmetry, the energy particle in the Negative Universe flips to a wave-like particle.

Case Study 3: Time Reversal

Time is a consequence of the change of entropy of a system. If nothing changes, then time would stand still. Positive increasing entropy in the Positive Universe leads to a forward motion of time. For example, a cup falls off a table and smashes into multiple fragments. We say in common terms, that the system (cup) increases with positive entropy from a single microstate (whole cup) to multiple microstates (fragments of cup) in the forward direction of time. In real experience, the broken fragments never form back into a single whole cup and jump back onto the table, that is, time never reverses in real life.

In the Negative Universe, the entropy of an enclosed system tends to decrease, or put in another way, the processes tend to move towards a state of maximum order. Hence in the Negative Universe, the fragmented pieces of a cup would revert back to a whole entity and jump back on top of the table, that is, time as we define it would run backwards. However, since in the Negative Universe, gravity is repulsive, mass as we define it would never condense into anything resembling a cup.

Case Study 4: Gravity Created Life

If the Total Universe consisted of only a single energy particle, then if in the Positive Universe the positive energy particle manifests itself as a quantum wave, to maintain symmetry of duality, the negative energy particle will exists as a condensed “observed” quantum particle in the Negative Universe.

If we now assume that the Total Universe consisted of two energy particles. For illustration, we will assume the two particles are a pair of neutrally charged matter and anti-matter particles, so that there are no other interactions between the pair except through quantum gravity.

If the energy particle pair starts of in the Positive Universe as unobserved non-interacting particles, then their quantum waves will occupy all of space-time. The Positive Universe will be in a state of maximum entropy. For symmetry of duality, the pair of particles will exists as interacting (observed) energy-mass in the Negative Universe. Because the particles will have negative energy-mass in the Negative Universe, gravity will be repulsive and keep the two particles apart. Space-time will be stretched by the gravitational repulsion of the two interacting negative energy-mass particles in the Negative Universe. Time will remain still, since both universes will be in a complete state of equilibrium with no change in entropy of the systems.

If the energy particle pair starts of in the Positive Universe as interacting particles that observe each other through their mutual gravitational attraction, then the system will be in an ordered (low entropy) state. In the Negative Universe, the energy particles will exist as quantum waves. Because the positive energy-mass in the Positive Universe produces a gravitationally attractive force, the two particles will move towards each other. The matter and anti-matter particles on coming into contact will completely annihilate to produce pure energy quanta. The Positive Universe will have moved forward in time from a state of low entropy to a state of maximum entropy. Conversely, in the Negative Universe, the particles will materialize as a pair of matter and anti-matter particles.

In conclusion, positive gravitational attraction forces the entropy to increase in a system. Physical life as we know it can only exist in a universal system with increasing entropy. A negative gravitationally repulsive force causes the entropy of the system to decrease, and hence physical life (is consciousness also a conserved quantity of the Total Universe?) cannot materialize in the Negative Universe.

Case Study 5: Counter Arguments

The Second Law of Thermodynamics does not allow for decreasing entropy in a closed system.

The original Laws of Thermodynamics were formulated from experimental observations. The corrected Laws of Thermodynamics, which states that entropy is a conserved quantity along with energy, forces the universe to split into two independent polarities, a Positive Universe and a Negative Universe, as defined in the First Postulate. Since the physical observer can only perform physical experiments in the Positive Universe, as defined in the Fifth Postulate, where increasing entropy is the normal approaching state of equilibrium, then the original Second Law of Thermodynamics is not violated for such an observer.

Entropy is not associated with a single particle.

The equivalence definition of Absolute Zero temperature for a point energy particle as described in Case Study 2 is for descriptive illustration. Although a physical thermometer (a device for measuring temperature/entropy) cannot be physically inserted into a point energy particle to measure its physical temperature (entropy), it does not disallow you imagining the scenario.

Energy is a localized quantity and not associated with a Total Universe.

Locality is set by the closed system under observation, which could be the entire universe or a single energy particle. As defined in the Second Postulate, only the Total Energy in the closed system needs to be conserved.

E (Total Universe) = E (Positive Universe) + E (Negative Universe)

E (Total Particle) = E (Positive Particle) + E (Negative Particle)

Total energy is not allowed in Einstein’s General Theory of Relativity.

The two universes can exchange energy, as long as the total energy is conserved. However, they are still two independent universal systems that separately obey the laws of physics. In the Positive Universe, energy, mass and time have positive polarity; whereas in the Negative Universe these same conserved quantities have reverse polarity.

+E (Positive Universe) = [+m (Positive Universe)] x [+c (Positive Universe)]2

E = mc2 (Positive Universe)

-E (Negative Universe) = [-m (Negative Universe)] x [-c (Negative Universe)]2

-E = -mc2 (Negative Universe)

Statistical physics allows only for increasing entropy in a system approaching equilibrium.

Entropy can be defined statistically (S = k ln D in units of percentage) or quantitatively (S = Q/T in units of Joules per Kelvin). Statistical mechanics states that a system approaches equilibrium with the macrostates occupying the highest probable number of microstates. For illustration, we will assume an energy particle as the closed system under observation.

The probability that the energy particle can be found in all microstates of the closed system must be 100% (probability of 1).

S (Total Universe) = S (Positive Universe) + S (Negative Universe) = 1

To conserve entropy as defined in the Third Postulate, the duality of the energy particle states exclude the same particle from existing in the same state in both universes simultaneously. Hence if the energy particle exists as particle-like in one of the universes, then it must by the duality exclusion, exists as wave-like in the other universe. This duality exclusion principle is analogous to Pauli exclusion principle that forbids two half-spin fermions from occupying the same energy eigenstate simultaneously.

If statistical mechanics forces any physically observed particle states in the Positive Universe to reach equilibrium by increasing entropy, then by the duality exclusion, it forces any physically observed particles in the Negative Universe to reach maximum probable equilibrium by decreasing its entropy."

Answer 2

every possible universe is working itself out in every possible outcome simultaneously so the differences become very negotiable at that many different variables but i would imagine the positive universe drink less water because of the whole debate half full half empty and sticks to a popsilic philosophy on acquiring fluids and builds log cabins with the leftover sticks

Answer 3

Yes

Answer 4

1

Answer 5

Both would 'theoretically' be the same - just opposite to each other. A bit like looking in the mirror.

Answer 6

Do you desire to know one of the reasons normal Law of attractionproduct does not work for lots of people?Think about it like a diet. If you want lose weight and you work hard to lose it

Answer 7

either one, but, more so Dead, because of your spelling.