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Jimmy Vick
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Message 13466 - Posted: 17 Oct 2013, 19:20:54 UTC

The Current Scientific Consensus Composition of the Universe

4.9% - ordinary matter
26.8% - dark matter
68.3% - dark energy

(Note: Totals are from Wikipedia and cross referenced with a few other sources. I am not sure how black holes fit into these totals.)

The Singulosynthesis Universe Current Composition and Beginnings

15.5% - ordinary matter (mass with entropy and physical information)
84.5% - dark matter (Singulosynthesis remnant of timeless degeneracy mass or what I refer to as a "Ted")
0% - dark energy - Is a perceived effect of Singulosynthesis

(Note: These totals may need adjusting due to how black holes are classified by the current scientific consensus; black holes may require their own category.)

Binary black holes must maintain the relativistic binary orbital velocity of the speed of light to perform Singulosynthesis. All physical information and black hole entropy must be reassigned from a lower mass black hole horizon before a larger mass black hole will have no identity conflict (Please refer to my other paper "The path to understanding the rational universe - An argument for the objective observation, recording, and quantification of gravitational waves based on implied consequences of conserving physical information in the entropy of a black hole horizon" if you have no idea what I am referring to or the black hole model I am using). Once the entropy and physical information horizon of a black hole are gone a temporal horizon will remain over the degeneracy mass remnant of the former black hole. A larger mass black hole will accept a timeless degeneracy mass remnant (Dark Matter or Ted) of a former lower mass black hole through its horizon only after Singulosynthesis is complete. This implies a constant ALL dark matter and black holes must abide by. For now it is just known as “The Vick Effect” and should have some relationship to the Hubble’s Law or Hubble’s constant (this is something I am looking into right now).

The primordial dark matter of the Singulosynthesis universe was the timeless degeneracy mass resulting from the first event of Singulosynthesis and it notably had no magnetism. All Singulosynthesis occurring after the first event produced dark matter (timeless degeneracy mass black hole remnants or Ted's) with increasing levels of magnetism. Singulosynthesis produced dark matter to its current levels over time by temporally converting matter into dark matter. The quantity of dark energy we perceive today is the proportion of dark matter produced through Singulosynthesis by converting temporal mass into non temporal mass. Applying the percentage of perceived dark energy 68.3% to the true existing dark matter which is 84.5%, you get a total of 57.7135% of the total currently perceived 84.5% dark matter has actually been produced through Singulosynthesis since the initial event of Singulosynthesis at the beginning of the universe. Dark matter production through Singulosynthesis progressively assisted in the formation of galaxies and the structure of the universe while accelerating the expansion of the universe simultaneously.

The Singulosynthesis universe began with 26.7865% dark matter, 73.2135% matter, and 0% dark energy. This accounts for the 46.427% metallicity discrepancy we observe based on current models. Dark matter is timeless degeneracy mass created through Singulosynthesis at different intervals of time over time. From any black hole's 100% mass, the Singulosynthesis process should always end leaving at minimum a 26.7865% timeless degeneracy mass remnant (dark matter or Ted) of the former black hole. As the universe produces dark matter through Singulosynthesis more entropy and physical information has been assigned to less available mass over time. Entropy and physical information interact with both existing and newly produced gravitational waves. Gravitational waves are particle waves. Entropy and physical information are assigned to mass thereby creating the perception of space and time. The reduction of temporal mass through the assignment of physical information and entropy to gravitational waves also increased the complexity of all gravitational waves in the universe over time. This is why the universe appears to be accelerating and ionized gas has an affinity for magnetized timeless degeneracy mass remnants of former black holes.

The original Singulosynthesis event produced the first gravitational waves (which are really particle waves) of the universe and themselves have been recycled over time. Singulosynthesis recycles duality through reassigning entropy and physical information in the form of reestablished particle waves (which are gravitational waves). This recycling occurred at different times over time creating new particle waves not temporally associated with the original. Just as 46.427% of the universe has been recycled from matter into dark matter, 46.427% of all original particle waves in the universe (which are gravitational waves) have been recycled over time at different times with new time. Regarding the concept of timeless degeneracy mass black hole remnants (Dark matter or Teds) being accepted into horizons of other black holes, this concept can go both ways. Sufficient gravity can crush matter out of time and into an existing temporal horizon creating a black hole horizon with entropy and physical information.

Just to recap, there is no dark energy. Black holes are the tank of the universe in the form of a temporally neutral state of matter, 2 black holes are the engine through recycling time via gravitational waves (which are particle waves), matter is the fuel, byproducts are increasing quantities of dark matter and increasing quantities of entropy and physical information interacting with existing gravitational waves or new ones created through Singulosynthesis. The universe is not dying through ever increasing entropy, it is doing the opposite. The universe is piling more entropy and physical information onto less available mass through gravitational waves. The universe appears to be speeding up in its transition toward a state of pure dark matter and pure entropy and physical information with no mass.

The first generation stars in the universe formed without magnetism and must be generated within a simulation to figure out how they formed without any magnetism. However, I suspect a universe model comprising of 73.2135% matter and 26.7865% timeless degeneracy mass would boil over through Singulosynthesis fairly rapidly (this is like stage 4 or 5 on my simulation list). Every star which formed after the population three stars formed around a magnetized timeless degeneracy mass. The internal magnetic field of all non-first generation stars cause’s drag on a star’s rotation is not generated completely by core fusion. Population 1 and 2 stars have the burdened of needing enough core mass to crush through an existing temporal horizon which exists today in the core of every star. At minimum 26.7865% percent of all population 1 and 2 stars are formed around magnetized non temporal degeneracy mass (dark matter, Teds). Certain type 1a supernovas offer an opportunity to reveal a non-temporal degeneracy mass around which a star once formed.

Based on my ideas all population 1 and 2 stars should form around a magnetized non temporal mass... and that would include our Sun. How can we attempt to calculate what the non-temporal mass quantity within our Sun should be?
Apply perceived percentage of dark energy to the true existing quantity of dark matter:

84.5 x .683 = 57.7135 % is to total dark matter produced through Singulosynthesis

Subtract Singulosynthesis produced non temporal matter (dark matter) from currently perceived non temporal matter (dark matter):

84.5 - 57.7135 = 26.7865 % original dark matter at beginning of Singulosynthesis Universe

The Singulosynthesis Universe Composition Beginnings

26.7865% dark matter (Singulosynthesis will always end with a non-temporal dark matter and this is the best number I have right now)
73.2135% matter
0% dark energy.

Our Suns magnetized core is made up of the final degeneracy non temporal non fusible mass (Temporally neutral state of final degeneracy mass density = black hole singularity (Rambo), non-temporal final degeneracy mass density = Dark Matter (Ted))

1sm x .267865 = .267865 sm non fusible non temporal degeneracy mass: 53266 X10^30 kg

Our Suns has .732135 sm fusible mass: 1.45589 X 10^30 kg

A temporal Gravitational radius is a temporal radius as well:

2GM/c^2 = Rs

(2 (6.67384e-11) (.53266 X10^30 kg)) / 299,792,458^2 = 791.069180m

7.10977523e19 / 299,792,458^2 = 791.069180m

Calculating final degeneracy non temporal mass density at infinite gravity (Temporally neutral state of final degeneracy mass density = black hole singularity (Rambo), non-temporal final degeneracy mass density = Dark Matter (Ted)

Volume of a Sphere= 4/3 Pi R^3

Volume of a Sphere = 4/3 Pi 495043536.1919463m

Volume of a Sphere = Pi 6.60058048e^8 m^3

Volume of a Sphere = 2.07363351e^9 m^3

Density = M/V

D = .53266e^30kg/2.07363351e^9 m^3

D = 2.56872778e^20 kg m^3

You got to start from somewhere... That is my mass density calculation for non-temporal final degeneracy mass (dark matter or as I call a magnetized Ted). It is also the mass density calculation for what is now called the black hole "Singularity" which is actually a temporally neutral state of mass. Regarding space, non-temporal mass abides by some different rules...

When Singulosynthesis occurs at the binary relativistic orbital velocity of the speed of light, entropy and physical information are be reassigned to gravitational waves. Once Singulosynthesis is finished only a temporal horizon remains. If a temporally neutral black hole horizon is governed by 2GM/C^2 law, the horizon of non-temporal matter should be larger because it is at infinite gravity, infinite gravity does not abide by the inverse square law and therefore displaces more space 2GM/C. This is how space is displaced by transferring mass out of time when Singulosynthesis ends.

Calculating a Temporal Horizon area of a non-temporal final degeneracy mass at infinite temporal gravity (dark matter horizon)
(nt) = non temporal

The inverse square law does not apply since it is Non Temporal horizon
2GM/c = R(nt)

2GM/c = (2 (6.67384e-11) (.53266 X10^30 kg)) / 299,792,458 =

7.10977523e19/299,792,458 = 2.37156574e11 m

R (nt) = 2.37156574e11 m
R (nt) = 2.37156574e8 km
R (nt) = 237,156,574 km

Wow that is huge.... There should be a space displacement around our Sun that would be difficult to notice... This is my first attempt at a rough dimension of how non temporal mass displaces space and is probably the cause for error range in a number of constants. While primitive, this is a business major graduate’s first attempt at calculating space time geometry. Space is displaced by converting temporal mass into non temporal mass through Singulosynthesis (a deterministic process that should ideally simulated).... I am starting to get some numbers for my program... Mass density starting point for Rambo = fairly reasonable to me...

Unlike any other form of super nova, a type 1a remnant or event with a known existing companion star will leave behind a magnetized timeless degeneracy mass which we can indirectly observe. It is the magnetized timeless degeneracy mass around which the star formed. For the sake of modeling I will use Tycho's remnant as a guide. Since type 1a supernovas occur at the Chandrasekhar limit of 1.44 solar masses my cosmology predicts a minimum of a .3857256 solar mass magnetized timeless degeneracy mass objected around which the star formed. Following the path from the remnants blast shadow created by a companion star, past the companion star will lead you to the vicinity of the progenitor star timeless degeneracy mass region. Lurking within Tycho's remnant 8 - 9.8k light years away will be a compact object with the dimensions of a .3857256 solar mass black non temporal horizon, but it will not "behave" like a black hole. This object will be transparent and it will gravitationally lens light in the way galactic scale dark matter does. All type 1a supernova remnants with identified companion stars should have these magnetized transparent timeless degeneracy mass objects (magnetized dark matter or Ted's). If the CMBR is the face of God, the gravitational lensing of light caused by these compact timeless degeneracy mass objects would be God winking at us.

1. Mass is synthesized into timeless degeneracy mass (dark matter) at a rate directly related to the accelerated expansion of the universe. It is the perceived effect of dark energy.

2. Gravitational waves are particle waves. Entropy, physical information, and mass will interact with historical gravitational waves or recycled ones.

3. The universe is transitioning to a state of pure dark matter and pure physical information and entropy within gravitational waves over time. This is a final state of pure dark matter and pure light.

4. In a universe where everything is light, time is infinite. The universe is infinite...

Some questions that need answering:

How closely does the Hubble Constant relate to dark matter synthesis through Singulosynthesis?

Singulosynthesis implies increasing entropy and physical information populating of gravitational waves in the universe. Could this growing entropy and physical information discrepancy in the universe be in the form of increased magnetism or other properties?

Is there a maximum quantity of entropy and physical information a gravitational wave (currently known as a particle wave) can handle?

Does the current scientific consensus count black holes as matter when they are actually in a temporally neutral state?

If the Bekenstein bound is applicable to black hole horizons could relativistic jets be entropy and physical information overflow mechanisms?

Does the Bekenstein bound manage dark matter production under Singulosynthesis and gravitational wave population or is there another mechanism?

Exactly how sure are we that a stars internal magnetic field is created by fusion in a star core?

How long will our Sun last if it is comprised of a minimum of 26.7865% infusible magnetized timeless degeneracy mass?

© 2013 Jimmy Vick

Jimmy Vick
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Joined: 21 May 13
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Credit: 19,740
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Message 13504 - Posted: 21 Oct 2013, 1:09:14 UTC - in response to Message 13466.

Made edits blah...

Dark Matter in the Singulosynthesis Universe

The Current Scientific Consensus Composition of the Universe

4.9% - ordinary matter
26.8% - dark matter
68.3% - dark energy

(Note: Totals are from Wikipedia and cross referenced with a few other sources. I am not sure how black holes fit into these totals.)

The Singulosynthesis Universe Current Composition and Beginnings
15.5% - ordinary matter (mass with entropy and physical information)
84.5% - dark matter (Singulosynthesis remnant of timeless degeneracy mass or what I refer to as a "Ted")
0% - dark energy - Is a perceived effect of Singulosynthesis converting temporal mass into magnetized volumes of space.

(Note: These totals may need adjusting due to how black holes are classified by the current scientific consensus; black holes may require their own category.)

What could dark matter be? What could perceived dark energy be? What is a black hole? How can we find some answers? First some distinctions need to be made. I am going to describe a cosmology completely outside the context of the big bang that actually makes some sense. While Singulosynthesis should ultimately be simulated there are some ideas that can be inferred just considering it. If you have no clue what I am referring to, please refer to my other paper "The path to understanding the rational universe - An argument for the objective observation, recording, and quantification of gravitational waves based on implied consequences of conserving physical information in the entropy of a black hole horizon" if you have no idea what I am referring to or the black hole model I am using.

A black hole in the Singulosynthesis model of the universe is a temporally neutral state of mass with a temporal horizon which is governed by some rules. From the temporal side of a black hole horizon there is a physical information and entropy boundary at the gravitational radius (Schwarzschild radius). Once a black hole’s entropy and physical information boundary fills up there is an overflow mechanism (likely based on the Bekenstein bound) at the Planck length scale (this ideally should be simulated to pin down the three way process). The non-temporal side of a black hole horizon (inside the gravitational radius) ignores physical information and entropy that exists on the temporal side on the gravitational radius. In that sense, a black hole horizon is a temporal filter for mass. The temporal radius will accept mass regardless of what is going on outside the gravitational radius, so long as a gravitational horizon exists from the temporal side.

From the temporal side (outside the gravitational radius of the perceived temporal horizon) there is an entropy and physical information horizon which determines how duality is stripped from mass, how physical information and entropy are stored at the Planck scale, how physical information and entropy are reassigned during an overflow state, and how duality is reassigned back into duality by the Singulosynthesis process mechanism [The Singulosynthesis process will reassign existing horizon physical information and entropy by establishing or re-establishing duality to non-temporal mass during the Singulosynthesis process (ideally must to be simulated]. Relativistic jets are an over flow mechanism which offload the difference between what a black hole horizon can and cannot handle in terms of physical information and entropy volume.

Once Singulosynthesis is finished, and the reassigning of physical information and entropy at the temporal side gravitational radius is done, a temporal horizon will remain over the remaining non-temporal mass (what we perceive temporally as dark matter on a galactic scale). A temporal neutral black hole gravitational radius will always accept temporal mass or reassign non temporal mass through Singulosynthesis, a non-temporal mass with no entropy or physical information horizon remaining will no longer accept mass, for it is no longer a black hole which is a temporally neutral state of mass. It is this conversion of temporal mass into non-temporal mass that we perceive as the force of magnetism in a volume of space. Here is how I am calculating it as of now.

Applying the percentage of perceived dark energy 68.3% to the true existing dark matter which is 84.5%, you get a total of 57.7135% of the total currently perceived 84.5% dark matter has actually been produced through Singulosynthesis since the initial event of Singulosynthesis at the beginning of the universe. Increased magnetized volumes of space have been produced through Singulosynthesis and galaxies are progressive buildups of magnetized space volumes. If the universe is comprised of 57.7135% more dark matter and no dark energy, where is this extra dark matter or magnetized space hiding? It is hiding inside of every star.

The Singulosynthesis universe began with 26.7865% dark matter, 73.2135% matter, and 0% dark energy. This accounts for the 46.427% metallicity discrepancy we observe based on current models. Since this is how I argue the universe began and the process deterministically repeats itself, out of any black hole's 100% mass, the Singulosynthesis process should always end leaving at minimum a 26.7865% non-temporal degeneracy mass remnant of a formerly temporal neutral black hole which is actually a magnetized volume of magnetized space. Binary black holes must maintain the relativistic binary orbital velocity of the speed of light to perform Singulosynthesis. While the process of Singulosynthesis should be ideally simulated in order to be fully understood, there are some things we can infer for the existence of this process I am arguing for. Singulosynthesis occurs at the metallicity rate we observe in the universe overtime through the reassignment of entropy and physical information through Singulosynthesis and is responsible for the expansion of the universe through the conversion of temporal mass into magnetized space volumes.

According to big bang cosmology, the first generation stars in the universe formed without any magnetism at all. How can you form a hydrostatic equilibrium of plasma (what we call a star) without any magnetism to begin with? You can’t, and it is impossible despite all the cool graphics you see in TV programs. Population 3 stars are impossible entities under any version of big bang cosmology and yet the first stars had to come from somewhere right? The Singulosynthesis universe begins comprised of a 26.2135 percent volume of magnetized space (perceived as dark matter). Dark matter halos of all galaxies are weakly magnetized volumes of space from the beginning of our universe which is the CMBR, nothing exists in the Singulosynthesis universe before that point. This means at minimum 26.7865% percent of all stars are formed around magnetized volume of space which is non-temporal mass.

All stars must form around a magnetized volume of space which becomes compacted into a stars internal magnetic core dynamo, and that would include our own Sun. How can we attempt to calculate what the magnetized volume of space compacted within our (non-temporal mass quantity) own Sun should be?
Apply perceived percentage of dark energy to the true existing quantity of dark matter (which is actually a magnetized volume of space):

84.5 x .683 = 57.7135 % is to total magnetized volume of space produced through Singulosynthesis

Subtract Singulosynthesis produced magnetized volume of space from currently perceived magnetized volume of space (currently called dark matter):

84.5 - 57.7135 = 26.7865% magnetized volume of space at the beginning of Singulosynthesis Universe

The Singulosynthesis Universe Composition Beginnings

26.7865% magnetized volume of space(Singulosynthesis will always end with a magnetized volume of space and this is the best number I have right now, thanks to the Planck Satellite data)
73.2135% matter
0% dark energy.

Our Suns magnetized core is made up of a compacted magnetized volume of space created during its formation. It is a non-fusible magnetic mass which not only assisted in formation, it adds to maintaining the hydrostatic equilibrium of the star. (Temporally neutral state of final degeneracy mass density at infinite gravity = black hole singularity (Rambo), is also the minimum volume of space (non-temporal mass) necessary for mass to become temporally neutral again = Dark Matter

1 solar mass x .267865 = .267865 solar mass non fusible magnetized volume of space: 53266 X10^30 kg

Our Suns has .732135 solar mass fusible mass: 1.45589 X 10^30 kg

A temporal Gravitational radius is a neutral non-temporal mass radius as well (magnetized volume of space):

2GM/c^2 = Rs (Schwarzschild Radius)

(2 (6.67384e-11) (.53266 X10^30 kg)) / 299,792,458^2 = 791.069180m

7.10977523e19 / 299,792,458^2 = 791.069180m

Calculating minimum final degeneracy for temporal neutral mass density at perceived infinite gravity (Temporally neutral state of final degeneracy mass density = black hole singularity (I call it a Rambo) is also the minimum volume of space (non-temporal mass) necessary for mass to become temporally neutral again = Dark Matter

Volume of a Sphere= 4/3 Pi R^3

Volume of a Sphere = 4/3 Pi 495043536.1919463m

Volume of a Sphere = Pi 6.60058048e^8 m^3

Volume of a Sphere = 2.07363351e^9 m^3

Density = M/V

D = .53266e^30kg/2.07363351e^9 m^3

D = 2.56872778e^20 kg m^3

You need to start from somewhere... That is my mass density calculation for a magnetized volume of space to become temporally neutral (dark matter or as I call a magnetized Ted). It is also the mass density calculation for what is now called the black hole "Singularity" which is actually a temporally neutral state of mass. Regarding space, non-temporal mass abides by some different rules. A magnetized volume of space is a mass existing outside of our temporal horizon.

Once Singulosynthesis is finished and only a temporal horizon remains over the once temporally neutral mass, if a temporally neutral black hole horizon is governed by 2GM/C^2 law, the horizon of non-temporal mass should be larger because it is at infinite gravity, infinite gravity does not abide by the inverse square law and therefore displaces more space 2GM/C. This is how temporally neutral mass is transferred into non temporal mass in the form of magnetism within a volume of space time when Singulosynthesis ends.

Calculating a Temporal Horizon area of a non-temporal final degeneracy mass at infinite temporal gravity (magnetized volume of space)
(nt) = non temporal

The inverse square law does not apply since it is Non Temporal horizon
2GM/c = R(nt)

2GM/c = (2 (6.67384e-11) (.53266 X10^30 kg)) / 299,792,458 =

7.10977523e19/299,792,458 = 2.37156574e11 m

R (nt) = 2.37156574e11 m
R (nt) = 2.37156574e8 km
R (nt) = 237,156,574 km

This is the maximum calculated magnetized volume of space can be occupied at .53266 X10^30 kg (max volume of non-temporal mass). When a star forms, this volume of magnetized space is crushed into the core dynamo of every star. Creating a large enough star from a large enough volume of magnetized space and a neutral horizon in the form of a black hole can be re-established during core collapse. While our star lacks enough mass to re-establish a temporally neutral state of mass, it is a rational starting point for considering a number of exotic magnetized objects in the universe.

This is my first attempt at a rough dimension of how non temporal mass displacement occurs in the form of magnetized volume of space and is probably the cause for error range in a number of constants. While primitive, this is a business major graduate’s first attempt at calculating space time geometry. Magnetized volumes of space are displaced by converting temporal mass into non temporal mass through Singulosynthesis (a deterministic process that should ideally simulated). I am starting to get some numbers for my program. Mass density starting point for Rambo = fairly reasonable to me and is the beginning point for the simulation mentioned in my other paper.

Magnetic volumes of space are compacted during stellar proto star accretion to form the internal dynamo of all stars. However, I suspect a universe model comprising of 73.2135% matter and 26.7865% magnetized space would boil over through Singulosynthesis progressively (this is like stage 4 or 5 on my simulation list). Every star ever formed had to have formed in the presence of existing magnetism, the big bang model does not have this. Forming a star in the big bang model of the universe creates 2 out comes via any model I have seen ranging from, stars blowing themselves apart during ignition before they can reach a hydro static equilibrium or all large stars collapse into an Un-nova. At present, I see a whole bunch of stars and not any Un-nova’s have yet to been observed. The internal magnetic field of all stars cause’s drag on a star’s rotation is not generated completely by core fusion. All stars have the burden of needing enough core mass to crush through existing compacted volumes of magnetized space which exists today in the core of every star. Certain type 1a supernovas offer an opportunity to reveal a non-temporal degeneracy mass around which a star once formed.

Unlike any other form of super nova, a type 1a remnant or event with a known existing companion star will leave behind a non-compacted magnetized volume of space we can indirectly observe. It is the magnetized volume of space around which the star had formed. For the sake of modeling I will use Tycho's remnant as a guide. Since type 1a supernovas occur at the Chandrasekhar limit of 1.44 solar masses my cosmology predicts a minimum of a .3857256 solar mass magnetized volume of space within the remnant, it is what the star formed around. Following the path from the remnants blast shadow created by a companion star, past the companion star will lead you to the vicinity of the progenitor star timeless degeneracy mass region. Lurking within Tycho's remnant 8 - 9.8k light years away will be a compact object with the dimensions of a .3857256 solar mass black non temporal horizon, but it will not "behave" like a black hole. This object will be transparent and may gravitationally lens light in the way galactic scale dark matter does. All type 1a supernova remnants with identified companion stars should have these non-compacted magnetized volumes of space. If the CMBR is the face of God, the gravitational lensing of light caused by these non-compacted magnetized volumes of space objects would be God winking at us.

Some questions that need answering:

Does the current scientific consensus count black holes as matter when they are actually in a temporally neutral state?
If the Bekenstein bound is applicable to black hole horizons could relativistic jets be entropy and physical information overflow mechanisms?
Does the Bekenstein bound manage dark matter production under Singulosynthesis and gravitational wave population or is there another mechanism?
Exactly how sure are we that a stars internal magnetic field is created by fusion in a star core?
How long will our Sun last if it is comprised of a minimum of 26.7865% infusible magnetized timeless degeneracy mass?

© 2013 Jimmy Vick

Message boards : Cosmology and Astronomy : Mass density of a Black Hole Singularity, first numbers