mapping havona

8/14/2019 Mapping Havona

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Mapping Havona

A l e x * W a l l


2/12

Mapping Havona

Lets examine the Havona worlds and circuits. The assumptions I use

in this essay will be a continuation from my Revisiting Paradise

essay Parts 1 and 2.

Each C1 world has 255,690,203.6 km of space to fit into in eachcircuit. And about the orbital differentiation in velocity for the

Havona Circuits, Urantia Book says (p.153)...

All worlds in a given circuit have the same length of year since

they uniformly swing around Paradise, and the length of these

planetary years decreases from the outermost to the innermost

circuit.

The above quote is more evidence to imply that all worlds move at the

same speed (in our current study, c), but because of the lengths of

their orbits they appear to move fast on the inner circuits and

slower on the outer circuits, like the planets in our solar system.

I like to think of each Havona world as being about as large as the

yellow giant star, Arcturus (diameter 41,775,000 km). There are

larger stars and smaller stars, but this one seems to be in the

Goldilocks region of star size. But watch how big they can become:

Star Size In Scale.

The following diagram will give some comparison of various kinds of

sphere sizes. Notice Jupiter is only 1 pixel. Earth would be

invisible...
http://c/Users/Chuck/Desktop/URT/href=http://www.youtube.com/watch%3Fv=qysS9xThKXchttp://c/Users/Chuck/Desktop/URT/href=http://www.youtube.com/watch%3Fv=qysS9xThKXchttp://c/Users/Chuck/Desktop/URT/href=http://www.youtube.com/watch%3Fv=qysS9xThKXchttp://c/Users/Chuck/Desktop/URT/href=http://www.youtube.com/watch%3Fv=qysS9xThKXc


3/12

For essays with more information about our sun and other stars please

check out UBPHORIA and read Light of the Suns I and Light of the Suns

II.

For simplicity-sake, lets estimate that each Havona world has a

diameter of 50,000,000 km. Next to a Havona world, our sun would

look like a pea next to a basketball. The sun's diameter would be

36.2 times smaller. Jupiter would be 350.1 times smaller. And the

earth would have a diameter 3,932.2 times smaller than a Havona

world.

Compared to the last diagram, one Havona world would be slightly

larger than Arcturus...

We recall that Havona worlds are not suns, they are literally, solid

material (albeit, CU material). They have gravity and atmospheres.We are told that only in the Central Universe can support spheres

this huge to be utilized for residential and other practical

purposes. The Central Universe is a perfectly balanced system.

Just for the heck of it, the following are a couple of planetary

tables for our solar system. It is interesting to see how small our

sun's planets and other objects are, when compared with Central

Universe objects...
http://ubphoria.blogspot.com/http://ubphoria.blogspot.com/2008/03/light-of-suns.htmlhttp://ubphoria.blogspot.com/2008/03/light-of-suns-ii.htmlhttp://ubphoria.blogspot.com/2008/03/light-of-suns-ii.htmlhttp://ubphoria.blogspot.com/http://ubphoria.blogspot.com/http://ubphoria.blogspot.com/http://ubphoria.blogspot.com/2008/03/light-of-suns.htmlhttp://ubphoria.blogspot.com/2008/03/light-of-suns.htmlhttp://ubphoria.blogspot.com/2008/03/light-of-suns.htmlhttp://ubphoria.blogspot.com/2008/03/light-of-suns-ii.htmlhttp://ubphoria.blogspot.com/2008/03/light-of-suns-ii.htmlhttp://ubphoria.blogspot.com/2008/03/light-of-suns-ii.htmlhttp://ubphoria.blogspot.com/2008/03/light-of-suns-ii.htmlhttp://ubphoria.blogspot.com/2008/03/light-of-suns-ii.htmlhttp://ubphoria.blogspot.com/2008/03/light-of-suns-ii.html


4/12

Planets

Mercury Venus Earth Mars Jupiter Saturn Uranus Neptune

Diameter(Earth=1)

0.382 0.949 1 0.532 11.209 9.44 4.007 3.883

diameter(km)

4,878 12,104 12,756 6,787 142,800 120,000 51,118 49,528

mass(Earth=1)

0.055 0.815 1 0.107 318 95 15 17

mean distancefrom Sun (AU)

0.39 0.72 1 1.52 5.20 9.54 19.18 30.06

orbital period(Earth years)

0.24 0.62 1 1.88 11.86 29.46 84.01 164.8

orbitaleccentricity

0.2056 0.0068 0.0167 0.0934 0.0483 0.0560 0.0461 0.0097

mean orbitalvelocity (km/sec)

47.89 35.03 29.79 24.13 13.06 9.64 6.81 5.43

rotation period(in Earth days)

58.65 -243* 1 1.03 0.41 0.44 -0.72* 0.72

inclination ofaxis (degrees)

0.0 177.4 23.45 23.98 3.08 26.73 97.92 28.8

mean temperature

at surface (C)

-180 to

430

465-89 to

58

-82 to

0

-150 -170 -200 -210

gravity atequator (Earth=1)

0.38 0.9 1 0.38 2.64 0.93 0.89 1.12

escape velocity(km/sec)

4.25 10.36 11.18 5.02 59.54 35.49 21.29 23.71

mean density(water=1)

5.43 5.25 5.52 3.93 1.33 0.71 1.24 1.67

atmosphericcomposition

none CO2N2 +O2

CO2 H2+He H2+He H2+He H2+He

number of

moons0 0 1 2 63 60 27 13

rings? no no no no yes yes yes yes


5/12

Dwarf Planets

Ceres Pluto Haumea Makemake Eris

Diameter(Earth=1)

0.076 0.1800.110

(average)0.102-0.149

0.188-0.235

Diameter(km)

974.6 2,300~ 1,700x 996

1,300-1,900

2,400-3,000

Mass(Earth=1)

0.00016 0.002 0.00070 0.00067 0.0028

mean distancefrom Sun (AU)

2.76596 39.44 43.335 45.791 67.6681

orbital period(Earth years)

4.599 247.7 285.4 309.88 557

Orbitaleccentricity

0.07976 0.2482 0.18874 0.159 0.44177

mean orbital velocity(km/sec)

17.882 4.74 4.484 4.419 3.436

rotation period(in Earth days)

0.378 -6.38* 0.163 ? > 8 hrs ?

inclination of axis(degrees)

3 122 ? ? ?

mean temperature

at surface (C) -106 -220 -223 -240 -230gravity at equator

(Earth=1)0.028 0.06 0.045 0.051 0.082

escape velocity(km/sec)

0.51 1.27 0.84 0.8 1.31

mean density(water=1)

2.077 2.03 2.6-3.3 2 1.18-2.31

atmosphericcomposition

none CH4 none? maybe CH4 maybe CH4

number of

moons0 3 2 0 1


6/12

Now that we have a guessed-at size for the Havona Worlds, and a

measurement for C1 (along with how much space each world has), we can

list out the measurements of all seven Havona circuits.

The following measurement tables were found by using the space

theorized for each Havona world (255,690,203.6 km from the center of

one world to the center of the next world in any one circuit) times

the number of worlds in each circuit using...

The Underwood Equation

106 * [35n + (-1)n + 3]

Where n = Havona Circuits 1 to 7:

37,000,00074,000,000

107,000,000

144,000,000

177,000,000

214,000,000

247,000,000

The x and y axes of the Havona circuits are based on the following

formulas (specialized to match the Paradise ratio (1.16:1:0.1)...

x = (ellipse circumference / / 13) * 14

y = (ellipse circumference / / 13) * 12

The r (average radius) of the Havona circuits is (defined as a

circle)...

r = ellipse circumference / / 2 or x + y / 4
http://www.dualmoments.com/almanac/billion2.htmhttp://www.dualmoments.com/almanac/billion2.htm


7/12

Havona Circuit MeasurementsGiven in Kilometers and Light Years

Havona Circuit 1 (C1)Circumference = 9,460,537,532,460,000 km



CIRCUIT 1 Kilometers Light Years

circumference 9.46E+015 1000.0

x = axis 3.24E+015 342.8

y = axis 2.78E+015 293.8

r = avg radius 1.51E+015 159.2



x = axis 6.49E+015 685.6

y = axis 5.56E+015 587.6

r = avg radius 3.01E+015 318.3



x = axis 9.38E+015 991.3

y = axis 8.04E+015 849.7

r = avg radius 4.35E+015 460.3


8/12






x = axis 1.26E+016 1334.1

y = axis 1.08E+016 1143.5

r = avg radius 5.86E+015 619.4



x = axis 1.88E+016 1982.7

y = axis 1.61E+016 1699.4

r = avg radius 8.71E+015 920.5



x = axis 1.55E+016 1639.9

y = axis 1.33E+016 1405.6

r = avg radius 7.20E+015 761.4


9/12


World to World

Before we continue moving outward, let's define the inter-world

measurements. Going by the assumptions I have made so far, there

would still be the same amount of space between C7 worlds as there

is between C1 worlds.

And here are those measurements...

a. Each world has a diameter of 50,000,000 km.

b. The space from the center point of one world to the center

point of the next world in that circuit is 255,690,203.6 km.

c. b a = 205,690,203.6 km.

d. So if the radius of one world is 25,000,000 km (being how far

the surface of the sphere is from its central point), then there

is 205,690,203.6 km of space between the surfaces of that world

and the next consecutive world, in any circuit.

That is about 8.3 times the diameter of each world, for space between

them.



x = axis 2.16E+016 2288.4

y = axis 1.86E+016 1961.5

r = avg radius 1.01E+016 1062.5


10/12

Circuit to Circuit

The space between circuits can be found too, although it alternates

in distance, following the signature of the Underwood Equation.

The Paradise-Havona Circuits(to scale)

Space Between Havona Circuits

C1 to C2 1.39E+15 km or 146.9 LY

C2 to C3 1.24E+15 km or 131.1 LY

C3 to C4 1.39E+15 km or 146.9 LY

C4 to C5 1.24E+15 km or 131.1 LY

C5 to C6 1.39E+15 km or 146.9 LY

C4 to C5 1.24E+15 km or 131.1 LY


11/12

Beyond the Seventh Circuit

Now of course comes the next set of guesses: What are the

measurements of the inner and outer Dark Gravity (DG) circuits

surrounding the Central Universe? Here are some Urantia Book quotes

with interpretation.

From Paper 14, Pages 153-154, that can help (my blue)...

On the outskirts of this vast central universe, far out beyond

the seventh belt of Havona worlds...

So there is a relatively large amount of distance between the C7 and

the DG circuits.

...there swirl an unbelievable number of enormous dark gravity

bodies.

These are not solid circuits they are made of many bodies.

These multitudinous dark masses are quite unlike other spacebodies in many particulars; even in form they are very

different. These dark gravity bodies neither reflect nor absorb

light; they are nonreactive to physical-energy light, and they

so completely encircle and enshroud Havona as to hide it from

the view of even near-by inhabited universes of time and space.

These multitudinous bodies are not only at the horizontal edge of

the CU, but also run up vertically enough to not allow Havona be seen

from the outside.

The inner procession of dark gravity bodies is tubular in

arrangement, consisting of three circular groupings. A crosssection of this circuit would exhibit three concentric circles

of about equal density.

The above is a nice clear description; a long thin torus made of

three concentric, inner tori of equal edge thickness. This inner

belt of DG bodies is 1/10,000th the vertical height of the outer belt.

The outer circuit of dark gravity bodies is arranged

perpendicularly, being ten thousand times higher than the inner

circuit.

Problems with Conceptualism

HERE I find the above quote somehow lacking enough information to

form a clear picture of its geometrical shape. I will have to check

with in with my peers. I have never really understood EXACTLY what

the Revelators were trying to say about this one outer circuit.

arranged perpendicularly to what? If they are referring to the

inner DG belt, then do they mean that the outer one is like the inner

one (tubular)?, but set at a 90 degree angle? I just don't get that

statement.


12/12

This next statement is also just as confusing, especially in the

context of the last quote.

The up-and-down diameter of the outer circuit is fifty thousand

times that of the transverse diameter.

Up-and-down I'm taking to mean upward at a 90 degree angle from the

plane of the CU. This would be like a giant elliptical wall around

the entire CU. EXCEPT for the fact that they ALSO use the term,

transverse diameter to describe the side-to-side measurement of a

wall (or so that's what I thought it resembled, at first) - but with

the plane-face-on elliptical terminology - baffles me.

How can all other shapes in the CU be on the same plane, while this

outer belt of DG bodies is (somehow?) on a perpendicular plane AND

the perpendicular transverse diameter is 50,000 times smaller than

the up-and-down diameter? The problem is: No third Dimension is

mentioned.

This outer belt of DG bodies is the last piece needed to draw up a

map for the entire Central Universe System.

ALEX WALL

mapping havona

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