Light Speed Expansion and Rotation of a Very Dark Machian Universe Having Internal Acceleration

We present a Machian model of Quantum Cosmology with full dark matter and light speed expansion and rotation. During galaxy formation and evolution, fraction of dark matter transforms to visible matter with a relation of the form, m_vis = constant * (m_dark) 2/3 . Using this relation and replacing MOND’s “critical acceleration” with “current cosmic maximum angular acceleration”, galactic flat rotation speed range of (50 to 500) km/sec can be fitted well. Estimated flat rotation speeds of DD168, Milky Way and UGC12591 are 49.96 km/sec, 199.66 km/sec and 521.75 km/sec respectively. Based on these striking coincidences, it is possible to say that, MOND’s approach is implicitly connected with cosmological estimation of 95% invisible matter. With reference to SPARC data for flat rotation speeds and current cosmic maximum angular acceleration, galactic total mass can be estimated. Considering galactic total mass, galactic visible mass and dark mass can be estimated. Proceeding further, galactic working radii, angular velocity and visible matter density can be estimated. Estimated Milky Way’s effective radius is 293 kpc. Even though, this model is free from “big bang”, “inflation”, “dark energy”, “flatness” and “red shift” issues, at 2.722 K, estimated present Hubble parameter is 66.24 km/sec/Mpc, cosmic radius is 146.3 times of the Hubble radius, angular velocity is 146.3 times lower than the Hubble parameter and cosmic age is 146.3 times of the Hubble age. With future observations and advanced telescopes, it may be possible to see far distant galaxies and very old stars far beyond the current observable cosmic radius.


Introduction
We would like to emphasize the fact that, the basic principles of cosmology were developed when the subject of cosmology was in its budding stage. Friedmann made two simple assumptions about the universe [1] [2]. They can be stated in the following way. 1) When viewed at large enough scales, universe appears the same in every direction.
2) When viewed at large enough scales, universe appears the same from every location.
In this context, Hawking expressed that [2]: "There is no scientific evidence for the Friedmann's second assumption. We believe it only on the grounds of modesty: it would be the most remarkable if the universe looked the same in every direction around us, but not around other points in the universe".
In our earlier and recent published papers [3]- [20] we tried to highlight the basic drawbacks of big bang, inflation and galactic red shift in various possible ways. As of now, theoretically and observationally, with respect to inflation, isotropy, expansion speed, dark matter, dark energy and rotation, whole subject of cosmology is being driven into many controversies and dividing cosmologists into various groups with difference of opinions. On the other hand, very unfortunate thing is that, quantum cosmology point of view, "as a whole", progress is very poor [21]. Instead of discussing the controversies, we would like to propose a new model which can pave a new way for understanding and correlating astrophysical and cosmological observations in terms of quantum mechanics and general theory of relativity in a Machian view. It needs further study.
With reference to our very recent publication [20], in this version, 1) Implemented Mach's relation in place of Schwarzschild radius of black hole.
2) We tried to couple cosmic gravitational self energy density and cosmic thermal energy density.
3) Tried to define the Gamma parameter with the ratio of past and current temperatures [10] [11]. It helps in estimating the Hubble parameter with a direct relation rather than trial-error approach. 4) Made an attempt to bring clarity in the estimation of galactic dark matter. 5) Tried to define a dark matter reference mass unit of 3.523 × 10 38 kg in terms of current cosmic mass and Planck mass. 6) Tried to provide a clear procedure for understanding galactic dark matter via Inverse square law and cosmic angular acceleration. 7) Removed some topics pertaining to "Cold dark matter" and "Relativistic dark matter" of galaxies. 8) Based on the available Spitzer Photometry and Accurate Rotation curves (SPARC) data, we have added Table 1 for the estimation of galactic total mass, visible mass, dark mass, working radii and visible matter density. 9) Considering low massive galaxies, we have added Table 2. By assuming the visible mass, its dark mass, total mass, flat rotation speed, working radii and visible mass density can be estimated.
With three simplified assumptions, an attempt has been made to develop a practical model of the universe. As so many galaxies are rotating and all the cosmic observations are being carried out with photons, we consider a light speed expanding [22] [23] [24] [25] [26] and light speed rotating universe. As galaxies are the key building blocks of the evolving universe and as all galaxies constitute massive rotating dark holes at their centers, we consider a growing and rotating Machian universe model [27]- [34]. That is why we call it a practical model. Interesting point to be noted is that, our model is absolutely free from "cosmic red shift" concept. Most important point to be noted is that, we have developed a very tight quantum gravity relation for correlating cosmic temperature and Hubble parameter independent of galactic red shifts and galactic distances. It can be applied to different time periods of the past.

Holographic Principle and Mach's Relation
According to G't Hooft, the combination of quantum mechanics and gravity requires the three dimensional world to be an image of data that can be stored on a two dimensional projection much like a holographic image [35] [36]. The "holographic principle" is a property of string theory and a supposed property of quantum gravity that states that the description of a volume of space can be thought of as encoded on a lower-dimensional boundary. Based on this concept, for the four dimensional spacetime universe, its three dimensional increasing volume can be set by Mach's principle, ( ) mass and gravitational lensing are being studied with "light speed" photon as a key tool.
2) It is well believed that "gravity" propagates with light speed. Even though gravitational wave physics is having 100 years of theoretical history, in 2015 only scientists could able detect "gravitons" [36]. Very interesting and notable point is that gravitons also propagate with "speed of light". So far no ground based telescope or space telescope is able to catch gravitons for studying routine galactic properties. Frankly speaking, gravitational wave physics is in its budding stage for understanding and studying the routine galactic observations.
3) It is well established that electromagnetic interaction propagates with light speed.
4) It is well proved that, light speed is the ultimate speed of material particles.

5) So far, it
has not yet been possible physically to measure the actual galactic receding speeds. 6) So far, it has not yet been possible to demonstrate and distinguish "space without matter" and "matter without space". In this ambiguous situation, without knowing the origins of "space" and "matter", it is quite illogical to say that, space drags massive galaxies at super luminal speeds.
7) So far, either at microscopic level or at macroscopic level, it has not yet been possible to establish a common understanding among quantum mechanics and gravity.

Reasons for Considering Universe as a Machian Sphere
Based on the following reasons, we consider a Machian universe.
1) Without a radial in-flow of matter in all directions towards one specific point, one cannot expect a big crunch and without a big crunch, one cannot expect a big bang. Really if there was a "big bang" in the past, with reference to formation of big bang as predicted by GTR and with reference to the cosmic rate of expansion that might have taken place simultaneously in all directions at a "naturally selected rate" about the point of big bang: "point" of big bang can be considered as the characteristic reference point of cosmic expansion in all directions. Thinking in this way, to some extent, point of big bang can be considered as a possible centre of cosmic evolution. If so, thinking about a centre less universe is illogical.
2) Mass and size pertaining to pre and post big bang [37] are unclear.
3) Whether Planck scale is associated with big bang or big bang is associated with Planck scale is also unclear.

List of Symbols
At any stage of cosmic evolution, Note: Planck scale symbols can be understood with a subscript "pl" and current symbols can be understood with a subscript "0".

Three Simple Assumptions
We propose the following three assumptions.
Assumption-1: By following Mach's principle, right from the beginning of Planck scale, universe is expanding with speed of light and rotating with speed of light from and about the cosmic centre. It can be expressed with, U. V. S. Seshavatharam, S. Lakshminarayana International Journal of Astronomy and Astrophysics Assumption-2: At any stage of cosmic evolution, ratio of Hubble parameter to angular velocity can be expressed as, 2 1 ln 1 ln T ω ≅ Planck scale angular velocity and temperature respectively.
Assumption-3: Right from the beginning of Planck scale, at any stage of cosmic expansion, gravitational self energy density and thermal energy density are equal in magnitude and can be expressed as follows.
Based on relations (3) and (5), gravitational self energy density can be expressed as,

Expressions for Cosmic Temperature and Age
Rewriting relation (8) with respect to the radiation energy density constant, By proceeding in the following way, a very simple expression for cosmic temperature can be obtained.
0.6831 20 It may be noted that, in a theoretical approach, 1) Right from the beginning of Planck's scale, we try to see the gradual time dependent variations in cosmic radius, cosmic temperature, Hubble parameter and angular velocity with a set of three simple assumptions. With further study, deviations in their respective magnitudes can be analyzed with reference to radiation dominated era, matter dominated era like physical conditions and black body spectrum like analyzing tools and methods. We are working in this direction.
2) As cosmic mass, radius, Hubble parameter, angular velocity and temperature are inter-related, they can be represented in any required manner.
3) "Ease" and "Simplicity" are the basic requirements of unification. As universe is always expanding with speed of light, t R ct ≅ . Hence,

Current Cosmic Physical Parameters at Current Cosmic Temperature
Following the assumptions, the Planck scale Hubble parameter can be expressed as follows: As per the 2015 Planck data (Planck Collaboration 2015) [39], The current value of the Hubble parameter is reported to be:

Cosmic Rotation
As per the recent 2020 publication [40], according to Vladimir A. Korotky, Eduard Masár and Yuri N. Obukhov: "In observational cosmology, the main difficulty for detecting a global rotation is its smallness-less than 10 −13 rad/year according to the generally accepted assessment. It is impossible in the Universe to distinguish the direction corresponding to the axis of rotation, with respect to which one could notice deviations (in the standard tests) from the Friedman standard cosmology. In theoretical cosmology, the main difficulties are related, on the one hand, to the lack of simple models of an expanding and rotating Universe in general relativity (GR) similar to Friedman-Robertson-Walker models.
On the other hand, there are no convincing predictive effects of cosmic rotation that are consistent with the capabilities of the equipment of modern astronomical observatories". In this context, we strongly propose that, as "spin" is a basic property of quantum mechanics, from the subject point of quantum gravity, universe must have "rotation". If it is assumed that, universe is a Machian sphere, it is quite natural to expect "cosmic rotation". Considering the 6 major applications of dark matter in view (see section 10), by estimating the currently believed dark mass of a galaxy with its corresponding visible mass, and by replacing the "acceleration" parameter ( )  of MOND with cosmic angular acceleration ( ) 0 cω , we try to fit the flat rotation speed of a galaxy. One most interesting as well as speculative point is that, even though MOND approach is "the best" in fitting galactic rotation curves, its back ground physics is unclear with respect to galactic structures and cosmic acceleration parameter ( ) 0 cH . It can be con-U. V. S. Seshavatharam, S. Lakshminarayana firmed with the conclusion section of recent paper authored by Stacy McGaugh [41]. Here, our approach is having 4 different actions: 1) To estimate the generally believed dark mass of galaxy.
2) To implement cosmic angular acceleration in understanding galactic structure.
3) To fit flat rotation speed of a galaxy. 4) Finally, to divulge the existence of cosmic rotation.
Kurt Gödel put a lot of efforts in developing a realistic universe model with rotation and expansion. His heuristic results were presented at International Congress of Mathematics held at Cambridge (Massachusetts) from 30th August to 5th September 1950 [42].
The first experimental evidence of the Universe rotation was done by Birch in 1982 evidently [43]. According to Birch, there appears to be strong evidence that the Universe is anisotropic on a large scale, producing position angle offsets in the polarization and brightness distributions of radio sources. These can probably be explained on the basis of a rotation of the Universe with an angular velocity of approximately 10 −13 rad/year. In our model, current cosmic angular velocity is 4.631 × 10 −13 rad/year. Observational effects of current cosmic rotation can be understood with the works of Obukhov [44], Godlowski [45], Longo [46] and Chechin [47].
According to Michael Longo the universe has a net angular momentum and was born in a spin.
Whittaker says [48]: "however, that any of the mathematical-physical theories that have been put forward to explain spin (rotation) in the universe has yet won complete and universal acceptance; but progress has been so rapid in recent years that it is reasonable to hope for a not long-delayed solution of this fundamental problem of cosmology".
According to T. Valery and S. V. Timkov, current universe is rotating with light speed and angular velocity equal to the current Hubble parameter [49]. Very recent and advanced studies of Lior Shamir suggest [50] that, the distribution of galaxy spin directions in SDSS and Pan-STARRS shows patterns in the asymmetry between galaxies with opposite spin directions and can be considered as an evidence for large-scale anisotropy and an indication for a rotating universe.

Understanding Galactic Dark Matter and Its Estimation
As per modern cosmological observations, most of the cosmologists infer dark matter as a characteristic and inherent feature of any galaxy. Dark matter seems to have a major role in understanding 6 different issues pertaining to many of the galaxies. They are [51] [52]: 1) Galactic formation and evolution.
3) Gravitational lensing. International Journal of Astronomy and Astrophysics 4) Galactic collisions. 5) Motion of galaxies within galaxy clusters.

6) Cosmic microwave fluctuations.
Most unfortunate thing is that, so far, no ground based experiment or no cosmological observation could establish any direct evidence for the existence of dark matter and opened a new window for MOND like interesting concepts.
In this context, some of the cosmologists are trying to understand the presumed 6 major applications of dark matter with galactic "visible mass" only.
Effectiveness of this attempt seems to be interesting. One can find interesting technical discussion in the context of CMB fluctuations, galactic rotation curves and galaxy clusters [53]. Anyhow, here we would like appeal that, the subject under consideration is falling under a "debate" or "conflict of interest" and needs further study at utmost fundamental level with respect to the strange nature of presumed dark matter. Ongoing and future experiments and observations may help in resolving the issue.
In this context we propose our views in the following way.
1) Right from the beginning of Planck scale, "universe" is generating dark mass only.
2) Dark mass plays the complete role in the formation and evolution of galaxies.
3) During cosmic evolution, for any galaxy, part of dark mass slowly transforms to visible mass. 4) Current galactic visible mass can be understood with the following relation.
6) Current galactic dark mass factor can be understood with the following relation.
7) Current galactic total mass can be understood with the following relation.
where, ( ) 0 Gtot M = Current total mass of galaxy. 8) Current galactic dark mass percentage can be understood with the following relation.

To Develop a MOND like Relation for Galactic Flat Orbiting Speed with Cosmic Angular Velocity and Galactic Total Mass
Even though MOND approach [54] [55] [56] was aimed for understanding galactic rotation curves without dark matter, with reference to the proposed current cosmic angular velocity and relation (10), it is possible to fit the rotation curves and thereby galactic dark masses can be inferred.
Observed galactic flat rotation curves can be understood in the following way.
At present, for any galaxy, let, ( ) ( ) Point to be noted is that, star's orbiting velocity changes with changing galactic dark mass distribution and it needs further study and observational data for a number of galaxies. Let, where, Now, based on MOND approach, assume that, where, 0 cω ≅ Current possible maximum cosmic angular acceleration. Thus, Based on this relation, estimated flat rotation speeds of DD168, Milky Way and UGC12591 are 49.96 km/sec, 199.66 km/sec and 521.75 km/sec respectively. As per the reference photometric data [54] and [57], their corresponding flat rotation speeds are 52 km/sec, 202.6 km/sec and 500 km/sec respectively. Within a range of (50 to 500) km/sec, these striking coincidences are strongly supporting our proposed concepts.
In this way, 1) Current galactic angular velocity can be understood with the following relations.
where, ( ) 0 Grot ω = Current galactic angular velocity 2) Based on relations (28), (31) and (32), effective radius of galaxy can be expressed as, 3) Based on relation (28), as a special case, radius of galaxy corresponding to its visible mass and flat rotation speed, can be called as galactic "visible radius" and can be expressed as, 4) Based on relations (28), (34) and (35), if dark matter distribution is "as ex- 5) Effective, geometric and visible radii can be expressed with a common relation of the form, 6) With reference to the observed ordinary matter density [39] [58], we noticed that, for any galaxy, Clearly speaking, fitted density seems to be the geometric mean of visible mass density and total mass density. For 122 galaxies, its average value is close to 6.5 × 10 −28 kg/m 3 . It needs further study at basic level. See Table 1 and its last column.
Interesting point to be noted is that, seems to play a key role in fitting the mean density. It needs further study.
It may also be noted that, based on the average mass-to-light ratio for any galaxy, present matter density can be expressed with the following relation [58].
Note that elliptical galaxies probably comprise about 60% of the galaxies in the universe and spiral galaxies thought to make up about 20% percent of the galaxies in the universe. Almost 80% of the galaxies are in the form of elliptical and spiral galaxies. For spiral galaxies, 1 0 9 1 h η − ≅ ± and for elliptical galaxies, is very close to 8 to 9 and its corresponding matter density is close to (5.55 to 6.24) × 10 −32 gram/cm 3 and can be compared with the above proposed magnitude of (1.0 to 29.2) × 10 −28 kg•m −3 .
Note: Important point to be noted is that, in estimating the approximate visible mass of the universe, while multiplying the average galactic visible matter density with total cosmic volume, one must exclude the intergalactic volume or volume occupied by the free space. Clearly speaking, one must find the ratio of total galactic volume and total free space volume. 7) With reference to MSTG and MOND approaches [54], approximate galactic core radius can be expressed as,

To Understand Cosmic Redshift Associated with Cosmic Current and Past Temperatures
With reference to the light emitted from first hydrogen atoms, we define the following two ad hoc relations.
where pl R is the Planck scale cosmic radius.
Based on these two ad hoc definitions, it is possible to show that, With respect to the proposed assumptions, it is clear that at any stage of cosmic expansion, 1) Cosmic radius is inversely proportional to cosmic angular velocity.
2) Cosmic angular velocity is directly proportional to squared cosmic temperature. Hence, where t T is the past cosmic temperature; and 0 T is the current cosmic temperature.

To Understand Hubble's Law and to Locate the Cosmic Centre
Based on first assumption and special theory of relativity, from and about the cosmic centre, for any materialistic galaxy, its current receding speed can be understood in the following way.
In this way qualitatively Hubble's [59] law can be understood. Since 0 ω is known, by knowing the actual galactic receding speed, its distance from the cosmic centre can be estimated. By estimating the cosmic radial distances of galaxies along with their locations, it seems possible to locate the cosmic centre. If any galaxy's actual receding speed is found to be faster than speed of light, our model can be falsified.

To Estimate Current Gravitational Wave Length
With reference to current cosmic mass and Planck mass, wavelength of current gravitational waves [60] can be obtained as follows.
Our idea is that, at any stage of cosmic evolution, "evolving universe" is an "internal accelerating" object and wavelength of cosmic graviton is equal to 2π times the geometric mean of radius of universe at time t and Planck scale radius.
At present, it can be expressed as, Corresponding frequency and energy can be expressed as, In a rotating universe, according to Christillin [61], there is a possibility of continuous generation of gravitational waves. In this context, our proposed

Understanding Cosmic Anisotropy
As universe is always expanding at speed of light, at any stage of expansion, cosmic boundary expands by 3 × 10 8 m in one second. In between the cosmic centre and cosmic boundary, expansion distance covered in one second can be expressed as, Clearly speaking, 1) Distance moved near to cosmic boundary is more compared to distance moved near to cosmic centre.
2) Rate of volume change near to cosmic boundary is higher than the rate of volume change near to cosmic centre.

Understanding (Internal) Cosmic Acceleration
According to Saul Perlmutter, Adam Riess and Brian Schmidt, observable universe is accelerating [63] [64]. Clearly speaking, expansion of the universe is such that the velocity at which a distant galaxy is receding from the observer is continuously increasing with time. It can be understood in the following way.
Based on relation (47) and with reference to two time periods ( ) of galactic receding speeds can be expressed as,  2) Acceleration seems to be higher near to cosmic centre and gradually reaches to zero at horizon.
3) Hubble's law pertaining to two increasing time periods seems to be a natural consequence of internal cosmic acceleration. 4) Cosmic horizon is always expanding at speed of light.

To Relinquish Dark Energy
If it is assumed that, universe is always expanding with speed of light, then, considering "dark energy" like concepts need not be required [65] [66]. If one is able to understand the reasons for light speed expansion, it may help in understanding the internal acceleration. Proceeding further, till today, no cosmological observation or no ground based experiment could shed light on the physical nature of dark energy.

Understanding Nucleosynthesis
Based on relations (1) to (20) and by assuming appropriate density range or temperature range that is required for formation of nucleons and atoms, cosmic physical parameters pertaining to nucleosynthesis can be understood [67].

Inferences of Growing Machian Universe
Based on the proposed assumptions and with reference to the above relations, we would like to say that, 1) Earth, Solar family, Milky Way and all other galaxies are living inside the proposed Machian universe.
2) There is matter and space outside the proposed growing and rotating Machian universe.
3) The growing and rotating Machian universe always sucks matter inward and thus it grows on with increasing suction rate. 4) At poles, inward matter flow rate is maximum and at equator, inward matter flow rate is zero. Thus, starting from poles to equator, inward matter flow rate gradually decreases.

To Develop Practical Methods for Understanding a Growing Machian Universe
We would like to propose the following points for understanding cosmic singularity. 1) To study cosmic anisotropy on very large cosmic distances.
2) To believe, to understand and to study the consequences of cosmic rotation.
3) To develop high precision cosmic gyroscopes. 4) To study galactic mean temperature and to estimate the galactic dark mass. 5) To correlate galactic rotations and cosmic rotation. 6) To find oldest galaxies like EGSY8p7 whose age is closer to or greater than 13.8 billion years.

7)
To study very high energy cosmic gravitons. 8) To study cosmic dipole magnetic moment and its related properties.

Discussion on Cosmic Temperature, Angular Velocity, Radius and Age
Relation (11)

Discussion on Galactic Flat Rotation Curves and Galactic Dark Matter Estimation
2) On comparison, percentage of dark mass in MOND model seems to be 3) By minimizing the errors in estimating the visible mass of galaxy and by properly choosing the effective radius of galaxy, accuracy can be improved in estimating the dark mass of a galaxy. Point to be noted is that, there is no correlation between photometric mass estimations and parametric mass estimations. Similarly, in some cases, including Milky Way, there is no correlation between MSTG mass estimations and MOND mass estimations. It needs a careful analysis. 4) Staring from the lowest massive galaxy, (DDO 154) to the highest massive galaxy (NGC 2841), dark mass seems to increase from 2.7 to 49.3 times respectively and needs further study. Applying this idea to Sun like stars, dark mass ratio is close to 0.0001. 6) For Milky Way, its corresponding "visible" and "effective" radii are 11.5 kpc and 293.66 kpc. Corresponding geometric radius is 58.1 kpc. As per the observational data [71], for Milky Way, starting from a radius of 60 kpc, rotation speed seems to decrease gradually [72] [73]. Using the current dwarf galaxy population, very recently predicted [70] edge of the Milky Way halo is (292 ± 61) kpc. This is a very good support. See Table 1 for other galaxies. 7) In near future, by thoroughly studying the galactic dark mass distribution and corresponding deviations, variations in flat rotation speeds can be analyzed in a systematic approach. Very recent studies conducted on super spiral galaxies with Southern African Large Telescope (SALT) suggest high rotation speeds in the range of (240 to 570) km/sec indicating a dynamical masse range of (0.6 to 4) 12 10 M  [74]. It may be noted that, with a visible galactic mass of ( ) 12 12 0.6 4 10 1.55 10 M M × × ≅ ×   , estimated flat rotation speed is 539 km/sec. This is a good support for our proposal pertaining to most massive galaxies having fast rotation speeds. Considering a visible mass of (0.98 ± 0.1) of ( ) log dark M mentioned in Table 1 of Ref. [74], corresponding flat rotation speeds can be fitted well.

8)
We are also working on developing alternative relations for estimating ( ) 0 Gdark X . On lower side, by studying the ultra faint dwarf galaxies it seems possible to fine tune dark X .
9) Interesting point to be noted is that, for small galaxies whose mass is less than 3.5 × 10 38 kg, their dark mass seems to be less than their visible mass.
Whether it is, "correct or not", can be confirmed with their galactic rotational curves. For a galaxy of visible mass 6 10 M  , galactic flat rotation speed seems to be 5.0 km/sec. It needs further investigation with respect to least massive galaxy, Segue 2. According to Evan N. Kirby et al. [75]: "Either Segue 2 would be the first of a vast class of new galaxies to be discovered with very low luminosities and very low dark matter content, or it would have to represent a rare case of a dark matter halo that is typically too small to host a galaxy but, for some reason, managed to form a small number of stars over at least 100 Myr." See Table 2 for low massive galaxies. 10) Relation (34) seems to be very simple in representation, easy to follow and simple to visualize and analyze MONDin approach connected with galactic structures and cosmic structure. Table 1 By considering the available accurate flat rotation curves from SPARC data base [76] and considering relation (32) as a basic relation, galactic total matter can be estimated with the following relation.

Preparation of the Data
Based on relations (22), (25) and (26), we have, We have developed a simple C++ program to solve this relation and tried to estimate the galactic visible mass and dark mass approximately. In Table 1, we have presented the data.   Table 2 For low massive galaxies whose mass is less than ( )

Discussion on the Nature of Dark Matter
We would like to appeal that, when 95% of total cosmic mass is believed to be in the form of dark nature having interactions only with gravitation, it may not be logical to attribute its nature to any known or unknown elementary particle supposed to be originating from interactions involved with visible mass spectrum having negligible gravity at atomic, nuclear and electroweak scales. As current cosmic temperature is at 2.7 K, recently it has been suggested that, galactic cold hydrogen can be considered as dark matter [77] [78]. Since hydrogen is the basic building block of visible matter, this proposal can be given a chance. If so, 95% of the cosmic mass must be explained with a suitable mechanism with respect to current sub zero temperatures, past high temperatures and dark matter needed for the formation and evolution of galaxies. For example, based on our approach, estimated dark mass of current Milky Way is 24.5 times of its visible mass. It needs a reasonable mechanism for generating the required dark matter distribution.
If dark matter is really having a different nature and if one is willing to study and understand the mechanism of transformation of dark mass to Hydrogen This value is closely matching with our recent estimation connected with three large atomic gravitational constants [81].

To Check the Scope and Validity of Our Model
Unless it explains the current observations and predict fresh ideas, no new model of cosmology can be encouraged for further investigation. In this context, we appeal the readers to go through the following points. 1) We clearly demonstrate the role of Planck scale in fitting the current cosmic Hubble parameter and this procedure is independent of galactic red shifts. It can certainly pave a way for developing a realistic model of "quantum cosmology" [21].
2) Based on the requirement of spin in quantum gravity, we tried to explain various applications of cosmic rotation in estimating cosmic radius, mass, temperature, Hubble parameter, galactic flat rotation speed, galactic radius and galactic angular velocity.
3) By considering whole cosmic mass as dark matter, we proposed a simple method for estimating galactic dark mass. 4) Big bang, Inflation, Nucleosynthesis, baryonic acoustic oscillations and current acceleration are the key pillars of standard cosmology [82]. In this context, we would like to appeal that, a) As known physics is helpless in quantifying "Big bang" physical conditions, we propose a mechanism of "growing Planck ball". This logic seems to be simple and easy to implement. b) As there is no proper theoretical reasoning for the origin of "inflation" [38], it's well believed end results like "flatness", "homogeneity" and "isotropy" can also be understood with continuous and prolonged light speed expansion. This logic is natural, non-controversial, simple to follow and simple to implement. c) As an end result of inflation, standard cosmology is giving a top priority for exponential cosmic expansion in size, but no way considering its corresponding exponential increase in cosmic time. When it is strongly believed that, space-time is inseparable quantities, it seems illogical to believe in the standard model of 2.247 10 20 where, t = Time expressed in seconds.
where, For two Milky Way like galaxies, separation distance is around 1440 Mly and it is 2.8 times higher than BAO scale. It needs further study. In a scaling ap-International Journal of Astronomy and Astrophysics  (11) and (50), at any stage of cosmic evolution, ratio of cosmic thermal energy and energy of graviton is close to 0.6831. 8) With further study, it seems possible to understand the factors helping photon or graviton to move at "light speed" can be understood. Proceeding further, factors helping the universe to move at "light speed" can also be understood and thereby, issues connected with "dark energy" can be resolved. 9) By considering whole cosmic mass as dark matter, it seems possible to understand the issues connected with "nature" of dark matter.

Conclusions
Considering the points and relations proposed in sections (2) to (27), our model can be recommended for further research. We would like to emphasize the point that, "space" and "matter" are inseparable cosmic entities and like matter, space cannot travel faster than speed of light.
Flatness problem can be understood well with Machian radius of the current universe. Considering light speed expansion, inflation and dark energy concepts can be relinquished. Based on relations (4) and (8), Hubble parameter can be es-timated independent of galactic distances and their red shifts.
Even though, cosmic horizon is assumed to be expanding at light speed, based on relations (47) and (52), it seems possible to have internal acceleration below the cosmic horizon and seems to be a consequence of Hubble's law for increasing time periods. Even though, estimated cosmic radius is 146.3 times of the Hubble radius, estimated angular velocity is 146.3 times less than the Hubble parameter and is directly helping in estimating galactic masses and working radii with relations (21) to (41).
Further study and advanced telescopes may help in thoroughly exploring the cosmic and galactic structures in a broad view based on the concepts of Quantum Cosmology. In this context, relation (8) can be given some consideration.