# In process: Large-Scale Universe 133-204

 Notations 133 to 204 of 204+ Large-Scale Universe Of the 200+ base-2 notations from the Planck base units to this day, 67± notations are within the large scale. 133 134 135 136 137 138 Planck.Time 5.870×10-4.s 1.174×10-3.s 2.348×10-3.s 4.696×10-3.s 9.393×10-3.s 1.878×10-2.s Planck.Length 175.988.km 351.977.km 703.954.km 1407.908.km 2815.817.km 5631.634.km Planck.Mass 2.37×1031kg 4.74×1031kg 9.48×1031kg 1.89×1032kg 3.79×1032kg 7.58×1032kg Planck.Charge 2.042×1022C 4.084×1022C 8.169×1022C 1.633×1023C 3.267×1023C 6.535×1023C Planck.Temp 2.4×1011 K 4.8×1011 K 9.6×1011 K 1.92×1012 K 3.84×1012 K 7.68×1012 K B-2.Vertices 2.722×1039 5.444×1039 1.088×1040 2.177×1040 4.355×1040 8.711×1040 Scaling V (×8) 1.291×10120 1.032×10121 8.263×10121 6.610×10122 5.288×10123 4.230×10124 Discussion: Six key events happen within the large-scale universe. One day: At 86,400 seconds, it is between the 160th and 161st notations. One week: At 604,8000 seconds, it is between 162-165, but within the 163rd notation. One month: An average of 2,629,746 seconds, it is within the 165th notation. One year: An average of 31,556,952 seconds, it is between the 168th and 169th notations. One millennium: 1000 years, an average of 31,556,952,000 seconds, is between the 178th and 179th notations. One million years: An average of 31,556,952,000,000 seconds, is between the 188th and 189th notations. The first billion years, an eon is an average of 31,556,952,000,000,000 seconds; it is between the 199th and 200th notations. Each of the 201+ containers is substantially different; each harbors its unique constant-and-abiding unfolding; it is a exquisitely-simple, highly-integrated, totally-relational, quite-symmetric, and rather-explanatory and predictive view of our little universe. Key concept: Key questions: Numbers. Key words, primary concepts, and links to references for these ten notations: Open: Design thoughts:
 139 to 144 The first second of creation completes between notations 143 and 144. 139 140 141 <-Steps-> 142 143 144 3.7572×10-2.s 7.5145×10-2.s .15029×10.s T(seconds) .30058.s .60116.s 1.2023.s 11,263.2699.km 22,526.5398.km 45,053.079.km L(meters) 90,106.158.km 180,212.316.km 360,424.632.km 1.5168×1033kg 3.0336×1033kg 6.0672×1033kg M(kilograms) 1.2134×1034kg 2.4268×1034kg 4.8537×1034kg 1.3070×1024C 2.6141×1024C 5.2283×1024C C(Coulombs) 1.0456×1025C 2.0913×1025C 4.1827×1025C 1.5361×1013 K 3.0722×1013 K 6.1445×1013 K T(Kelvin) 1.2289×1014 K 2.4578×1014 K 4.9156×1014 K 1.74224×1041 3.4844×1041 6.96898×1041 B2Vertices 1.3937×1042 2.78759×1042 5.57518×1042 3.3846×10125 2.7076×10126 2.1661×10127 ScalingV 1.73291×10128 1.38634×10129 1.109×10130
Discussion: All these notations are still being double checked and cross referenced to the other three key charts. We will correct simple math errors as quickly as possible.

One minute and one hour of creation should be noted. The figures at one day (Notation 160), one week, one month, one year, one millennium and one eon (1 billion years) are all important clues to interpret the meaning of each notation.

Key questions about order, relations and dynamics: Is there a formula that begins to bind all notations deeper than exponentiation? Can the speed of light do it?

# Formula #1

We start with a most simple formula. Divide each value along the Planck Length scale by its corresponding value along the Planck Time, the result should equal the speed of light (kilometers per second) at every one of the 201 notations.

Let’s see if the logic bears out. First, we will use the closest possible Planck Time and Planck Length multiples to one second, .6011 seconds and 1.202 seconds at notations 143 and 144 respectively.

The first simple calculation: The simple formula is to divided 180,212.316 kilometers by 6.011 seconds. That calculation gives us a figure of 299,804.05257 km/second.

Dividing 360424.632 kilometers by 1.202 seconds gives us a figure of 299,854.103161 km/second. The experimentally defined measurement for one light second is 299,792.458 km per second.

When using a more refined measurement, the results naturally change. Using a calculation based on the ratio of 1.20232257536 seconds to 360424.632 kilometers renders a figure of 299,773.654248 km/second. We’ll have to be careful to test with an equal number of decimal units for time and length.

Every notation has its own calculation for the speed of light. We will do the calculations for several notations to see if it tells us something of interest.

At 142nd notation, .300580643 divided by 90,106.158 equals 299,773.655085 and at notation 145, the ratio 2.404645 to 720,849.264 renders 299,773.673037 and at notation 146, the ratio is 4.80929 seconds to 1,441,698.55 km equals 299,773.677611 km per second.

At 100th notation, the length is 20.4877678 microns divided by 6.83441261472×10-14 seconds equals 299,773.644861 km/second. At 150th notation, 23,067,176.8 km divided by 76.948644823 seconds equals 299,773.658822 km/second.

Analysis: Of course, it is not at all surprising that the Planck Time, Planck Length, and the speed of light correlate throughout the chart given that both Planck Time and Planck Length are determined by the speed of light.

What is surprising is that this simple formula corroborates the basic integrity of the chart, base-2 exponentiation with the speed of light, and it all begs for further analysis.

We will do it. We will go back through all 204 notations and do the calculations using numbers extended to the ten-thousandths and we’ll report the results within each notation.

## Let us now find Formula #2.

Link to Vertex Counts for B2 and Scaling: From notations 139 to 200+ the actual number of vertices will be stored in its own page which can be accessed by clicking here. These vertices open the discussions about the inherent geometry that should permeate this chart.

 Notations 145 to 150 of 200+ The first minute, just 60 seconds, and look how far the universe has come! 145 146 147 <-Steps-> 148 149 150 2.4046.seconds 4.8092.s 9.6185.s T(seconds) 19.237.s 38.47432.s 76.9486.s 720,849.264.km 1,441,698.528.km 2,883,397.056.km L(meters) 5,766,794.112.km 11,533,588.224.km 23,067,176.488.km 9.7075×1034kg 1.9415×1035kg 3.883×1035kg M(kilograms) 7.7660×1035kg 1.5532×1036kg 3.1064×1036kg 8.3654×1025C 1.673×1026C 3.3461×1026C C(Coulombs) 6.6923×1026C 1.3384×1027C 2.6769×1027C 9.831×1014 K 1.966×1015 K 3.932×1015 K T(Kelvin) 7.865×1015 K 1.573×1016 K 3.146×1016 K 1.1150×1043 2.2300×1043 4.4601×1043 B2Vertices 8.9202×1043 1.7840×1044 3.568×1044 8.8725×10130 7.0980×10131 5.6784×10132 ScalingV 4.5427×10133 3.6341×10134 2.9073×10135
 Discussion: 5631.6349.km was deleted from notation 139. As of 22 April 2016, all the notations for length will be backed down one notation. We will force the speed of light to coordinate with the length it covers in one second. All these notations will also be double checked and cross referenced to the other three key charts. We will correct simple math errors as quickly as possible. Key questions about order, relations and dynamics: These notations can be looked at from several perspectives. You may find a duplicate page of these numbers where the word, Steps” has been changed to reflect that view of the data. Each step could be a cluster, domain, doubling, group, layer, notation, set and/or step. Vertex Counts for B2 and Scaling: From notations 139 to 200+ the actual number of vertices will be stored in its own page which can be accessed by clicking here.
 Notations 151 to 156 of 200+ How does this first hour of creation compare with the Big Bang? 151 152 153 <-Steps-> 154 155 156 153.8972.seconds 307.794.s 615.589.s T(seconds) 1231.178.s 2462.3566.s 4924.713.s 46,134,352.896+.km 92,268,705.792+.km 184,537,411.584.km L(meters) 369,074,823.168.km 738,149,646.336.168.km 1.4762×1012.km 6.21283×1036kg 1.2425×1037kg 2.4851×1037kg M(kilograms) 4.9702×1037kg 9.9405×1037kg 1.9881×1038kg 5.3538×1027C 1.0707×1028C 2.1415×1028C C(Coulombs) 4.2831×1028C 8.5662×1028C 1.7132×1029C 6.292×1016 K 1.258×1017 K 2.5168×1017 K T(Kelvin) 5.0336×1017 K 1.0067×1018 K 2.013×1018 K 7.136×1044 1.427×1045 2.8544×1045 B2Vertices 5.708×1045 1.141×1046 2.283×1046 2.325×10136 1.860×10137 1.4885×10138 ScalingV 1.1908×10139 9.5268×10139 7.6214×10140 Discussion: 3600 seconds, between notations 155 and 156, account for the first hour of creation. In this model it appears that the infrastructure to create the universe to this point is the same infrastructure that sustains the universe. It appears that in this model “the first hour container” which is notation 155, is still working today. Note that 3600 seconds equals an hour, multiplied by the speed of light is 1,079,252,848.800 kilometers. See notation 156. Key questions about order, relations and dynamics: From notations 139 to 200+ the actual number of vertices will be stored in its own page which can be accessed by clicking here.
 157 to 162 THE FIRST DAY (and the infrastructure for every subsequent day) 157 158 159 <-Steps-> 160 161 162 9849.426.s 19,698.853.s 39,397.706.s T(seconds) 78,795.4122.s 157,590.82.s 315,181.649.s 2,952,598,585.km 5,905,197,170.km 11,810,394,341+.km L(meters) 23,620,788,682+.km 47,241,577,365+.km 94,483,154,731.km 3.9762×1038kg 7.9524×1038kg 1.5904×1039kg M(kilograms) 3.1809×1039kg 6.3619×1039kg 1.2723×1040kg 3.4264×1029C 6.8529×1029C 1.3705×1030C C(Coulombs) 2.741×1030C 5.482×1030C 1.096×1031C 4.026×1018 K 8.053×1018 K 1.610×1019 K T(Kelvin) 3.221×1019 K 6.443×1019 K 1.288×1018 K 4.567×1046 9.134×1046 1.826×1047 B2Vertices 3.653×1047 7.307×1047 1.461×1048 6.097×10141 4.877×10142 3.902×10143 ScalingV 3.1217×10144 2.497×10145 1.997×10146 Discussion: The First Day concludes at 86400 seconds. The universe appears to be approaching the size of our Solar System. At notation 160, it is 23,620,788,682 kilometers or 1,467,727,765 miles. If measured in astronomical units (AU), the Solar System is estimated to be the distance of 122 AU which is 122 times 93 million miles or 11.346 trillion miles. The orbiting Kuiper Belt (which contains Pluto) is 7.5 billion kilometers (30- 50 AU). So, within the first day, the universe has grown substantially larger than the Kuiper Belt. Also, note that one day is 86,400 seconds. Multiplied by the speed of light, 299,792.458 km, equals a length of 25,902,068,371.2 km. Key questions about order, relations and dynamics: From notations 139 to 200+ the actual number of vertices will be stored in its own page which can be accessed by clicking here.
 Notations 163 to 168 of 200+ The first month is within notation 165. The first year begins on the edge of 168 as it become 169. 163 164 165 <-Steps-> 166 167 168 630,363.29.s 1,260,726.59.s 2,521,453.19.s T(seconds) 5,042,906.38.s 10,085,812.77.s 20,171,625.54.s 1.88966306×1014.km 3.779×1014.km 7.558×1014.km L(meters) 1.511×1015.km 3.023×1015.km 6.046×1015.km 2.544×1040kg 5.089×1040kg 1.0179×1041kg M(kilograms) 2.035×1041kg 4.071×1041kg 8.143×1042kg 2.192×1031C 4.385×1031C 8.771×1031C C(Coulombs) 1.754×1032C 3.508×1032C 7.017×1032C 2.5772×1020 K 5.1544×1020 K 1.030×1021 K T(Kelvin) 2.061×1021 K 4.123×1021 K 8.247×1021 K 2.923×1048 5.846×1048 1.169×1049 B2Vertices 2.338×1049 4.6768×1049 9.353×1049 1.598×10147 1.278×10148 1.022×10149 ScalingV 8.1834×10149 2.497×10150 6.5467×10151 Discussion: The First Month: Use 30.436875 days per month based on a year of 365.2425 days divided by 12 months; Given there are 86,400 seconds per day, there are 2,629,746 seconds per month. It is within the notation 165. Multiplied by 299,792,458 m/s equals a length of 777,062,051,136,000 meters or 777,062,051,136 km, a little larger than the 165th notation. There are 31,556,952,000 seconds to a millennium which is found between notations 177 and 178. Key questions about order, relations and dynamics: From notations 139 to 200+ the actual number of vertices will be stored in its own page which can be accessed by clicking here.
 Notations 169 to 174 of 200+ The First Year and the definition of “Yearness” is within notation 169. 169 170 171 <-Steps-> 172 173 174 40,343,251.097.s 80,686,502.194.s 161,373,004.388.s T(seconds) 322,746,008.7.s 645,492,017.5.s 1,290,984,035.s 1.2093×1016.km 2.4187×1016.km 4.8375×1016.km L(meters) 9.675×1016.km 1.935×1017.km 3.87×1017.km 1.628×1042kg 3.257×1042kg 6.514×1042kg M(kilograms) 1.302×1043kg 2.605×1043kg 5.211×1043kg 1.403×1033C 2.80×1033C 5.613×1033C C(Coulombs) 1.122×1034C 2.245×1034C 4.491×1034C 1.649×1022 K 3.298×1022 K 6.597×1022 K T(Kelvin) 1.319×1023 K 2.63×1023 K 5.278×1023 K 1.8707×1050 3.7414×1050 7.4828×1050 B2Vertices 1.4965×1051 2.993×1051 5.986×1051 4.1899×10152 3.3519×10153 2.6815×10154 ScalingV 2.145×10155 1.716×10156 1.372×10157 Discussion: The First Year: Using a year of 365.2425 days and 86,400 seconds per day, there are 31,556,952 seconds per year. A year, when multiplied by the speed of light, 299,792,458 m/s equals a length of 9,460,536,207,068,016 meters or 9,460,536,207,068.016 km, between the 168th and the 169th notations. Key questions about order, relations and dynamics: From notations 169 to 200+ the actual number of vertices will be stored in its own page which can be accessed by clicking here.
 Notations 175 to 180 of 200+ 1000 Years, a millennium, is between notation 178 and 179. 175 176 177 <-Steps-> 178 179 180 2,581,968,070.s 5,163,936,140.s 10,327,872,280.8.s T(seconds) 20,655,744,561.s 41,311,489,123.s 82,622,978,246.s 7.7400×1017.km 1.548×1018.km 3.096×1018.km L(meters) 6.192×1018.km 1.238×1019.km 2.476×1019.km 1.042×1044kg 2.084×1044kg 4.169×1044kg M(kilograms) 8.338×1044kg 1.667×1045kg 3.335×1045kg 8.982×1034C 1.796×1035C 3.592×1035C C(Coulombs) 7.185×1035C 1.437×1036C 2.874×1036C 1.055×1024 K 2.111×1024 K 4.222×1024 K T(Kelvin) 8.444×1024 K 1.688×1025 K 3.377×1025 K 1.1972×1052 2.3945×1052 4.789×1052 B2Vertices 9.578×1052 1.915×1053 3.831×1053 8.786×10158 7.029×10159 5.623×10160 ScalingV 4.498×10161 3.599×10162 2.879×10163 Discussion: The First 1000 Years: There are 31,556,952 seconds in a year and 31,556,952,000 seconds in a millennium which is between notations 178 and 179. Key questions about order, relations and dynamics: From notations 169 to 200+ the actual number of vertices will be stored in its own page which can be accessed by clicking here.
 Notations 181 to 186 of 200+ Expanding toward 1,000,000 Years, then an Eon (one billion years). 181 182 183 <-Steps-> 184 185 186 165,245,956,493.s 330,491,912,986.s 660,983,825,972.s T(seconds) 1,321,967,651,940.s 2,643,935,303,880.s 5,287,870,607,760.s 4.953×1019.km 9.907×1019.km 1.98×1020.km L(meters) 3.96×1020.km 7.925×1020.km 1.585×1021.km 6.67×1045kg 1.334×1046kg 2.668×1046kg M(kilograms) 5.336×1046kg 1.067×1047kg 2.134×1047kg 5.748×1036C 1.149×1037C 2.299×1037C C(Coulombs) 4.598×1037C 9.197×1037C 1.839×1038C 6.755×1025 K 1.351×1026 K 2.702×1026 K T(Kelvin) 5.404×1026 K 1.080×1027 K 2.161×1027 K 7.6624×1053 1.5324×1054 3.0649×1054 B2Vertices 6.1299×1054 1.2259×1055 2.4519×1055 1.842×10164 1.4742×10165 1.1793×10166 ScalingV 9.4349×10166 7.547×10167 6.0383×10168 Discussion: The First Million Years: There are 31,556,952 seconds in a year, 31,556,952,000 seconds in a millennium and 31,556,926,000,000 seconds in a million years (Notations 187-188). Key questions about order, relations and dynamics: From notations 169 to 200+ the actual number of vertices will be stored in its own page which can be accessed by clicking here.
 Notations 187 to 192 of 200+ toward 1,000,000 Years (Notations 188 and 189) and next will come an Eon (one billion years). 187 188 189 <-Steps-> 190 191 192 10,575,741,215,500.s 21,151,482,431,000.s 42,302,964,862,000.s T(seconds) 84,605,929,724,000.s 169,211,859,448,000.s 338,423,718,896,000.s 3.170×1021.km 6.340×1021.km 1.268×1022.km L(meters) 2.536×1022.km 5.072×1022.km 1.014×1023.km 4.269×1047kg 8.538×1047kg 1.707×1048kg M(kilograms) 3.415×1048kg 6.831×1048kg 1.366×1049kg 3.679×1038C 7.358×1038C 1.471×1039C C(Coulombs) 2.943×1039C 5.886×1039C 1.177×1040C 4.323×1027 K 8.647×1027 K 1.729×1028 K T(Kelvin) 3.459×1028 K 6.918×1028 K 1.383×1029 K 4.9039×1055 9.8074×1055 1.9615×1056 B2Vertices 3.923×1056 7.846×1056 1.569×1057 4.8306×10170 3.864×10171 3.091×10172 ScalingV 2.473×10173 1.978×10174 1.582×10175 Discussion: The First Million Years: There are 31,556,952 seconds in a year, 31,556,952,000 seconds in a millennium and 31,556,926,000,000 seconds in a million years (Notations 188-189). Key questions about order, relations and dynamics: From notations 169 to 200+ the actual number of vertices will be stored in its own page which can be accessed by clicking here.
 Notations 193 to 198 of 200+ The billion year container is between notation 199 and 200. 193 194 195 <-Steps-> 196 197 198 338,423,718,896,000.s 676,847,437,792,000.s 1,353,694,875,580,000.s T(seconds) 2,707,389,751,160,000.s 5,414,779,502,320,000.s 10,829,559,004,600,000.s 2.029×1023.km 4.058×1023.km 8.116×1023.km L(meters) 1.623×1024.km 3.246×1022.km 6.492×1023.km 2.732×1049kg 5.464×1049kg 1.092×1050kg M(kilograms) 2.185×1050kg 4.371×1050kg 8.743×1050kg 2.354×1040C 4.709×1040C 9.418×1040C C(Coulombs) 1.883×1041C 3.767×1041C 7.534×1041C 2.767×1029 K 5.534×1029 K 1.106×1030 K T(Kelvin) 2.213×1030 K 4.427×1030 K 8.885×1030 K 3.138×1057 6.277×1057 1.255×1058 B2Vertices 2.5108×1058 5.021×1058 1.004×1059 1.266×10176 1.013×10177 8.104×10177 ScalingV 6.483×10178 5.188×10179 4.149×10180 Discussion: The Fullness of Time: On the approach to the first billion years of the universe, it is within these six notations that the universe as we experience it begins. There are 31,556,926,000,000,000 seconds in an eon that is a billion years, between notations 199 and 200. Key questions about order, relations and dynamics: From notations 169 to 200+ the actual number of vertices will be stored in its own page which can be accessed by clicking here.
 Notations 199 to 204 of 200+ Our little universe is still expanding. 199 200 201 <-Steps-> 202 203 204 4.331×1016.s.* 8.663×1016.s.* 1.732×1017.s.* T(seconds) 3.4654×1017.s.* Age of the Universe 1.298×1024.km 2.597×1024.km 5.194×1024.km L(meters) 1.038×1025.km 2.077×1025.km 4.155×1025.km 1.748×1049kg 3.497×1049kg 6.995×1050kg M(kilograms) 1.399×1050kg 2.798×1050kg 5.596×1050kg 1.506×1042C 3.013×1042C 6.027×1042C C(Coulombs) 1.205×1043C 2.411×1043C 4.822×10431C 1.77×1031 K 3.542×1031 K 7.084×1031 K T(Kelvin) 1.416×1030 K PLANCK TEMPERATURE 2.008×1059 4.017×1059 8.034×1059 B2Vertices 1.606×1060 3.213×1060 6.427×1060 3.319×10181 2.655×10182 2.124×10183 ScalingV 1.699×10184 1.087×10185 8.702×10185 1 Notation 199: 43,318,236,018,400,000 seconds (2.7 billion years) 2 Notation 200: 86,636,472,036,800,000 seconds (5.4 billion years) 3 Notation 201: 173,272,944,073,600,000 seconds (10.8 billions years) 4 Notation 202: 346,545,888,147,200,000 seconds (21.6 billion years) Discussion: The Fullness of Time: The first billion years of the universe becomes two billion years within the next notation, four at the next, and eight at the next. If time is imputed to be discrete and quantized, the aggregate of all notations must be added to determine the actual first eon. There are 31,556,926,000,000,000 seconds in an EON. That would seem to be between notations 198 and 199. But, if time is discrete, it would be the sum of every prior notation so it would come within the notations 197 to 198. That same logic would apply to the Age of the Universe in seconds. Notation 201 is 173,272,944,073,600,000 seconds or 10.8 billion years. The sum total of all notations from the Planck Time to the 201 notation is one Planck Time unit less than 173,272,944,073,600,000 seconds. We should round up! So, the universe today is within the earliest part of notation 201 using 13.8± billion years for the Age of the Universe. So, how many seconds old is the universe? Somewhere around 435.48 quintillion seconds. Each day adds another 86,400 seconds. Each year adds approximately 31.55 million seconds. Basic math: There are 31.5 quintillion seconds in a billion years multiplied by 13.8 gives us our 435.48 quintillion years. From notations 169 to 200+ the actual number of vertices is stored in its own page which can be accessed by clicking here.
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