# INTRODUCTION Since the beginning of the 1900s, we have transformed our view of the Universe. We learned that our galaxy is just one of many, that galaxies are racing away from each other, and that the universe's expansion is accelerating. These discoveries depended on an important finding made by Henrietta Leavitt, an American astronomer. [1] In 1929, Edwin Hubble announced that almost all galaxies appeared to be moving away from us. [2][3][4] [5] The velocity of a galaxy could be expressed mathematically as [3] (1) ? = ??? Where v is the galaxy's radial outward velocity, d is the galaxy's distance from Earth, and H is the constant of proportionality called the Hubble constant. [6] Today some theories have indeed become very complicated, and some have been too simple. But the fundamental ideas aren't that complex. Does the Hubble constant have this very simple relationship? And is the calculation of the age of the Universe so easy? The exact value of the Hubble constant is still somewhat uncertain but is generally believed to be around 65 kilometers per second for every megaparsec in the distance. [6] [7] The Hubble law is in functional studies. [8][9][10][11][12] The first measurement of H 0 from WMAP, in 2003, was 72 ± 5. Further results from WMAP were slightly lower: 73 in 2007, 72 in 2009, and 70 in 2011. No problem, though: the error for the SH0ES and WMAP measurements still overlapped in the 72-to-73 range. The most recent result from SH0ES at that time showed a Hubble constant of 74 ± 2, and WMAP's final result showed a Hubble constant of 70 ± 2. [8] The fact that the Hubble expansion rate of the Universe changes over time teaches us that the expansion of the Universe isn't a constant phenomenon. In fact, by measuring how that rate changes over time, we can learn what our Universe is made from: this was precisely how was first discovered dark energy. [15] [16] Entitling his paper "Sorry, Astronomy Fans, The Hubble Constant Isn't A Constant At All Starts With A Bang," Ethan Siegel wrote that if you measure the slope of that line, you get a value, colloquially known as the Hubble constant, still, it isn't a constant at all, as it changes over time. Here's the science behind why. [17] Astronomers have reached a fundamental impasse in their understanding of the Universe: they cannot agree on how fast it is flying apart. And unless a reasonable explanation can be found for their differing estimates, they may be forced to completely rethink their ideas about time and space. Only new physics can now account for the cosmic conundrum they have uncovered, many believe. [18] "Over the decades, these surprises have included the discovery of dark matter -believed to be made up of as yet undetected particles -whose extra gravitational pull explains why galaxies do not fly apart. In addition, astronomers have also discovered the existence of dark energy, which is accelerating the rate at which the cosmos is expanding. [18] "Those two discoveries were remarkable enough," adds Riess who won his Nobel for his involvement in the discovery of dark energy. "But now we are facing the fact there may be a third phenomenon that we had overlooked -though we haven't got a clue yet what it might be." [18] "Changing the Hubble constant from 67.4 to 73.5 would mean it must have been flying apart faster than previously supposed and so must be younger than its currently accepted age of 13.8bn years," says Mortlock. [18] A Kavli Institute for Theoretical Physics workshop in July 2019 directed attention to the Hubble constant discrepancy. New results showed that it does not appear to depend on the use of any one method, team, or source. Proposed solutions focused on the pre-recombination era. [19] This paper is a summary review of a KITP-UCSB workshop convened to bring together both experimental and theoretical researchers in the field to review and assess the current state of affairs and identify promising next steps for the resolution of this issue. [20][21] The model is well established from decades of research and its Hubble constant prediction is supported by Planck's results, however, measurements indicate the universe is expanding faster than expected. This conflict has been growing more perplexing in recent years. [1][22] "The Hubble constant discrepancy has been increasing, raising the possibility that we may be missing something interesting in our understanding of the universe," said SH0ES team lead Adam Riess at the Johns Hopkins University and Space Telescope Science Institute in Baltimore. [22] So, either something is wrong with our various measurement techniques or something is wrong with our theoretical model of how the universe evolves. [ and distance in the Hubble Law is called the Hubble constant [9] (it looks like the Planck constant [13]), or more appropriately the Hubble parameter we have a history of revising it. In recent years the value of the Hubble parameters has been considerably refined, and the current value given by the WMAO mission is 71 km/s per second. Measurements using a variety of techniques find the Hubble constant to be about 70 to 76 kilometers per second for every megaparsec of distance (Mpc, about 3.26 million light-years). So, an object one Mpc away will move away from us at 70-76 km/s, an object two Mpc will move away at 140-152 km/s, and so on. [1] [14] expansion rate in the modern universe than expected, based on how the universe appeared more than 13 billion years ago. These measurements of the early Universe come from the European Space Agency's Planck satellite. This discrepancy has been identified in scientific papers over the last several years, still, it has been unclear whether differences in measurement techniques are to blame or whether the difference could result from unlucky measurements. [24] These most precise Hubble measurements to date bolster the idea that new physics may be needed to explain the mismatch. [24] "This mismatch has been growing and has now reached a point that is impossible to dismiss as a fluke. This disparity could not plausibly occur just by chance." [1][25] [26] Cosmologists have been struggling to understand an apparent tension in their measurements of the present-day expansion rate of the Universe, known as the Hubble constant. Then in 1998, Purlmutter, Schmidt, and Riess used observations of very distant galaxies to show that the Universe was not just expanding but accelerating. [33]. London Journal of Research in Science: Natural and Formal The recent study strengthens the case that new theories may be needed to explain the forces that have shaped the cosmos. [24]. Either way, the Hubble constant puzzle indicates something is missing from our picture of the universe. [1] [24] And that was all it short review is about recent scientific research on the Hubble constant. # II. NEW SOLUTION FOR HUBBLE PROBLEM # Hubble Flow Hubble's law must yield a great deal of much more information about the Universe. But it conflicts with the observations and research above talked. This contradiction is not just in minor details but is very fundamental. Hubble's law couldn't be formulated perfectly because the Hubble constant (H) is a linear relationship between the distance and velocity of the receding celestial object on a small scale (1-2 Mpc). The Hubble law was almost valid in nearby galaxies (700 Mpc) (Figure 2a and Figure 2b). But it is not constant for distant galaxies lying more than 700 Mpc. Today we can observe 14260 Mpc or 46.5 Gly in radius [34]. I introduce that the diameter of the whole Universe is approximately 60000 Mpc, which equals 195.7 billion light years. [35] Of course, at that time Hubble law was a revolutionary scientific discovery. At that time, it was. Even now, not only Hubble's law (same as Einstein's photoelectric effect [13]) but many phenomena haven't been explained by classical physics because they are not linear, but cyclical. As seen today, Hubble's law cannot be accurately determined without the apparent hysteresis of magnetism. Because of this, we carefully handle the 100-year-old theory of Hubble from another point of view in this chapter. Does the problem of Hubble's constant direct us to new physics? Or require a new consideration of an old unsolved law? Both versions maybe. I think that the reason for Hubble's problem is the unsolved old physical phenomenon of hysteresis, which has been a struggle for scientists. At first, I solved the problem to open hysteresis, then used it for solving the Hubble problem, and finally considered its results for different levels, from quantum mechanics to cosmological phenomena. It was proved to be correct and rational. [35] [37][38][39][40][41][42][43]. London Journal of Research in Science: Natural and Formal The Hubble Flow (H(x)) is described by the following formula of the open hysteresis of the electromagnetism [13][35] [37][38][39][40][41][42][43] (Figure 2d): ( )2 Where x is the distance unit in a circular scale. According to the Supreme Theory of Everything, the graph of Hubble Flow shown in red in Figure 2d shows only the whole structure of the Universe. # Structure of the Universe The understanding of the universe depends on the key factor "Hubble flow". The curve in Figure 2d is a quarter of a full illustration in the Universe-scale. London Journal of Research in Science: Natural and Formal # The Age of the Universe is Flawed According to the Hubble law ? = ??? [45] ? ? ( ) = ?? ? ( ) ?? ? ? ( ) Where is the dimensionless scale factor for ? ? ( ) the expanding Universe, is the scale ? ? 0 ( ) = 1 factor at present. # ??? = 1 The scale factor R for a given observed object in the expanding Universe relative to at ? 0 = 1 present may be implied from the z parameter expression of the redshift. [9] The Hubble parameter has the dimensions of inverse time, so a Hubble time may be obtained ? # III. CONCLUSION We summarize that: ? We cannot find any constant of Hubble ![[27][28][29] ](image-2.png "") 1![Figure 1: How Far We've Come" [33] in the study of the Hubble constantWe've come a long way in our understanding of the Universe. While Hubble is given credit for the initial discovery of the distance-redshift relation, later astronomers continued to take measurements of the distance of galaxies and their redshifts.](image-3.png "Figure 1 :") ![Supreme Theory of Everything: It is Time to Discuss Hubble's Law " One alternative to the Hubble recession law is the tired-light hypothesis proposed initially by Zwicky.[30][31] Despite periodic re-examination of the concept, tired light has not been supported by observational tests and remains a fringe topic in astrophysics.[32] ](image-4.png "") 2![Figure 2: How Far We've Gone Now in Universe-Scale](image-5.png "Figure 2 :") 3![Figure 3: Universe structure as a geometric rotation form [35]](image-6.png "Figure 3 :") ![by inverting the present value of the Hubble parameter.[46] It is seemingly so uncomplicated. Unfortunately, cannot be constant. Consequently, the age of ? 0 the Universe is changed.The title of Ethan Siegel's article is "If The Universe Is 13.8 Billion Years Old, How Can We See 46 Billion Light Years Away?".[47] ](image-7.png "?") © 2023 London Journals Press Volume 23 | Issue 1 | Compilation 1.0 Supreme Theory of Everything: It is Time to Discuss Hubble's Law © 2023 London Journals Press Volume 23 | Issue 1 | Compilation 1.0 Supreme Theory of Everything: It is Time to Discuss Hubble's Law * Discrepancies in the Hubble Constant Have Vexed Astronomers -NASA's Roman Space -SciTechDaily -Telescope Could Help Resolve the Puzzle, NASA'S Goddard Space Flight Center 2021 * A relation between distance and radial velocity among extra-galactic nebulae EHubble 10.1073/pnas.15.3.16 Proceedings of the National Academy of Sciences 15 3 1929 * Hubble'sRedshift Law -Nasa * EmadIskander DouglasScott MartinWhite The Hubble Expansion * PJ EPeebles the Standard Cosmological Modelhttps * National Aeronautics and Space Administration, Goddard Space Flight Center Hubble Constant * RichardPanek How a Dispute over a Single Number Became a Cosmological Crisis * Hubble law and the expanding universe -GSU * Nine-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Final Maps and Results CLBennett DLarson JLWeiland ELWright 10.1088/0067-0049/208/2/20 The Astrophysical Journal Supplement Series 208 2 2012 Show all 21 authors * DanScolnic New Measurements of the Hubble Constant The National Science Foundation, University of Chicago * A redetermination of the Hubble constant with the Hubble Space Telescope from a differential distance ladder AdamGRiess LucasMacri Others 10.1088/0004-637X/699/1/539 The Astrophysical Journal 699 2009 July 1 * Supreme Theory of Everything: A New Quantum Concept of the Photoelectric Effect UlaanbaatarTardad London Journals of Research in Science: Natural and Formal 2022 22 * Probing the Hubble Constant with NASA's Roman Space Telescope, Nancy Grace Roman space telescope Goddard Space Flight Center * Mystery of Universe's Expansion Rate: Hubble Data Shows That "Something Weird Is Going On, Astronomy, Astrophysics, Hubble Space Telescope NASA Popular Space Telescope Science Institute 2022 * The Hubble Constant Isn't A Constant At All Starts With A Bang EthanSiegel AstronomySorry Fans 2019 Contributor Group sh=7f40b42 99d59 * RobinMckie The Hubble constant: a mystery that keeps getting bigger * Tensions between the Early and late Universe LiciaVerde TommasoTreu AdamGRiess 10.1038/s41550-019-0902-0 London Journal of Research in Science: Natural and Formal 3 10 2019 Nature Astronomy * EleonoraDi Valentino A combined analysis of the H0 late time direct measurements and the impact on the Dark Energy sector 2011.00246 3 Further Evidence of Excess Expansion. watch?app=desktop&t=2061&v= 8RPoPsvd60M&feature=youtu.be * Discrepancies in the Hubble Constant Have Vexed Astronomers -NASA's Roman Space Telescope Could Help Resolve the Puzzle GoddardNasa's FlightSpace Center Astronomy and Astrophysics 2021 * Hubble constant mismatch no fluke; new physics may be needed Hubble Space Telescope Science institute * Mystery of the universe's expansion rate widens with new Hubble data htm l 25 * WilfredHSorrell 10.1007/s10509-009-0057 Misconceptions about the Hubble recession law 2009 323 * The light/dark universe: light from galaxies, dark matter, and dark energy JamesOverduin PaulSMartin; Wesson 2008 World Scientific Publishing 10 * Is the Hubble constant not?Constant? -??? ?|???? * Hubble constant mismatch no fluke; new physics may be needed Astronomy Now 27 April 2019 * DonnaWeaver / RayVillard AdamRiess ClaireAndreoli Mystery of the Universe's expansion rate widens with new Hubble data 2019 * Proc. Nat. Acad. Sci 15 773 1929 * WilfredHSorrell 10.1007/s10509-009-0057 Misconceptions about the Hubble recession law 2009 323 * The light/dark universe: light from galaxies, dark matter, and dark energy JamesOverduin PaulSMartin; Wesson 2008 World Scientific Publishing 10 * Supreme Theory of Everything: Whole Universe in a Simple Formula BrianKoberlein The observable universe Ulaanbaatar, T. 10 October 2013 20 How Far We've Come. Issue 5 | Compilation 1.0, p * UlaanbaatarTarzad Supreme Theory of Everything, 4 th International Conference on Astrophysics and Particle Physics Chicago, USA Holiday Inn Chicago O'Hare December 03-05. 2018 * Supreme theory of everything TUlaanbaatar DOI 10 4172/2329-6542-C7-035 J. Astrophys. Aerospace Technol 6 2018 * Supreme Theory of Everything UlaanbaatarTarzad 10.33140/ATCP.02.02.05 Advances in Theoretical & Computational Physics 2 * Batgerel Baltin & Sangaa Deleg, Supreme Theory of everything: A New Possibility to Open the Hysteresis UlaanbaatarTarzad JargalanNarmandakh London Journal of Research in Computer Science and Technology 21 1 Compilation 1.0, 2021 * Ulaanbaatar Tarzad, Formula Extraction in Supreme Theory of Everything 10.33140/ATCP.02.04.01 33 140/ ATCP.02.04.01 London Journal of Research in Science: Natural and Formal 41 Advances in Theoretical & Computational Physics * Supreme Theory of Everything: Geometric Methods for the Complex Analysis UlaanbaatarTarzad Journal of Current Trends in Physics Research and Applications, App 2 1 2021 * Supreme Theory of Everything: Special Theory of Relativity Was Lost from the Beginning UlaanbaatarTardad 10.4236/jamp.2022.1012244 Journal of Applied Mathematics and Physics 10 12 December 2022 * If The Universe Is 13.8 Billion Years Old, How Can We See 46 Billion Light Years Away? EthanSiegel 2018 3 * If The Universe Is 13.8 Billion Years Old, How Can We See 46 Billion Light Years Away? EthanSiegel 2018 3 * London Journal of Research in Science: Natural and Formal