Tag Archives: heavy gravity planet

7 REASONS EARTH IS NOT SUITABLE FOR SUSTAINABLE CIVILIZATION

“You asked me earlier why The Domain, and other space civilizations do not land on Earth or make their presence known.  Land on Earth?  Do you think we are crazy or want to be crazy?  It takes a very brave IS-BE to come down through the atmosphere and land on Earth, because this is a prison planet, with a very uncontrolled, psychotic population.

No one knows what IS-BEs on Earth are going to do.  We are not scheduled to invest the resources of The Domain to take total control of all the space surrounding the area at this time.  This will occur in the not-too-distant future — about 5,000 Earth years — according to the time schedule of The Domain.  At this time we do not prevent transports from other planetary systems or galaxies from continuing to drop IS-BEs into the amnesia force screen area. Eventually, this will change.

In addition, Earth, inherently, is a highly unstable planet. It is not suitable for settlement or permanent habitation for any sustainable civilization.  This is part of the reason why it is being used as a prison planet.  No one else would seriously consider living here for a variety of simple and compelling reasons:

1) The continental land masses of Earth are floating on a sea of molten lava beneath the surface which causes the land masses to crack, crumble and drift continually. [i] (Footnote)

2) Because of the liquid nature of the core, the planet is largely volcanic and subject to earthquakes and volcanic explosions.

3) The magnetic poles of the planet shift radically about once every 20,000 years. [ii] (Footnote) This causes a greater or lesser degree of devastation as a result of tidal waves, and climatic changes.

4)  Earth is very distant from the center of the galaxy and from any other significant galactic civilization.  This isolation makes it unsuitable for use, except as a “pit stop” or jumping off point along the way between galaxies.  The moon and asteroids are far more suitable for this purpose because they do not have any significant gravity.

5) Earth is a heavy gravity planet, with heavy metallic soil and a dense atmosphere.  This makes it treacherous for navigational purposes.  That fact that I am in this room, as the result of an in flight accident, in spite of the technology of my craft and my extensive expertise as a pilot, are proof of these facts.

6) There are approximately sixty billion Earth-like (Sun Type 12, Class 7) planets in the Milky Way galaxy alone, not to mention the vast expanses of The Domain, and the territories we will claim in the future.  It is difficult to stretch our resources to do much more than a periodic reconnaissance of Earth.  Especially when there are no immediate advantages to invest resources here.

7) On Earth most beings are not aware that they are IS-BEs, or that there are spirits of any kind.  Many other beings are aware of this, but nearly everyone has a very limited understanding of themselves as an IS-BE.”

— Excerpts from the Top Secret military transcripts published in the book ALIEN INTERVIEW, edited by Lawrence R. Spencer


FOOTNOTES:

[i]The land masses continually crack, crumble and drift.”

Plate tectonics (from Greek τέκτων, tektōn “builder” or “mason”) is a theory of geology that has been developed to explain the observed evidence for large scale motions of the Earth’s lithosphere. The theory encompassed and superseded the older theory of continental drift from the first half of the 20th century and the concept of seafloor spreading developed during the 1960s.

The outermost part of the Earth’s interior is made up of two layers: above is the lithosphere, comprising the crust and the rigid uppermost part of the mantle. Below the lithosphere lies the asthenosphere. Although solid, the asthenosphere has relatively low viscosity and shear strength and can flow like a liquid on geological time scales. The deeper mantle below the asthenosphere is more rigid again. This is, however, not because of cooler temperatures but due to high pressure.

The lithosphere is broken up into what are called tectonic plates — in the case of Earth, there are seven major and many minor plates. The lithospheric plates ride on the asthenosphere. These plates move in relation to one another at one of three types of plate boundaries: convergent or collision boundaries, divergent or spreading boundaries, and transform boundaries. Earthquakes, volcanic activity, mountain-building, and oceanic trench formation occur along plate boundaries. The lateral movement of the plates is typically at speeds of 5 – 10 centimeters / yr.”

— Reference:  Wikipedia.org

[ii] The magnetic poles of the planet shift radically about once every 20,000 years”.

“The pole shift theory is a hypothesis that the axis of rotation of a planet has not always been at its present-day locations or that the axis will not persist there; in other words, that its physical poles had been or will be shifted. Pole shift theory is almost always discussed in the context of Earth, but other solar system bodies may have experienced axial reorientation during their existences.

Pole shift theories are not to be confused with plate tectonics, the well-accepted geological theory that the Earth’s surface consists of solid plates which shift over a fluid asthenosphere; nor with continental drift, the corollary to plate tectonics which maintains that locations of the continents have moved slowly over the face of the earth, resulting in the gradual emerging and breakup of continents and oceans over hundreds of millions of years.

Pole shift theories are also not to be confused with Geomagnetic reversal, the periodic reversal of the earth’s magnetic field (effectively switching the north and south magnetic poles). Geomagnetic reversal has more acceptance in the scientific community than pole shift theories.”

— Reference:  Wikipedia.org

 

Originally posted 2012-01-05 00:42:01. Republished by Blog Post Promoter

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BIOLOGICAL DE-EVOLUTION

biological engineering“The first development of biological bodies began in this universe about seventy-four trillion years ago.  It rapidly became a fad for IS-BEs to create and inhabit various types of bodies for an assortment of nefarious reasons:  especially for amusement, this is to experience various physical sensations vicariously through the body.

Since that time there has been a continuing “de-evolution” in the relationship of IS-BEs to bodies.  As IS-BEs continued to play around with these bodies, certain tricks were introduced to cause IS-BEs to get trapped inside a body so they were unable to leave again.

happy to be a robotThis was done primarily by making bodies that appeared sturdy, but were actually very fragile.  An IS-BE, using their natural power to create energy, accidentally injured a body when contacting it.  The IS-BE was remorseful about having injured this fragile body.  The next time they encountered a body they began to be “careful” with them.  In so doing, the IS-BE would withdraw or minimize their own power so as not to injure the body.  A very long and treacherous history of this kind of trickery, combined with similar misadventures eventually resulted in a large number of IS-BEs becoming permanently trapped in bodies.

Of course this became a profitable enterprise for some IS-BEs who took advantage of this situation to make slaves of others.  The resulting enslavement progressed over trillions of years, and continues today.  Ultimately the dwindling ability of IS-BEs to maintain a personal state of operational freedom and ability to create energy resulted in the vast and carefully guarded hierarchy or class system.  Using bodies as a symbol of each class is used throughout the “Old Empire”, as well as The Domain.”

The vast majority of IS-BEs throughout the galaxies of this universe inhabit some form of flesh body.  The structure, appearance, operation and habitat of these bodies vary according to the gravity, atmosphere, and climatic conditions of the planet they inhabit.  Body types are predetermined largely by the type and size of the star around which the planet revolves, the distance from the star, the geological, as well as the atmospheric components of the planet.

On the average, these stars and planets fall into gradients of classification which are fairly standard throughout the universe.  For example, Earth is identified, roughly, as a “Sun Type 12, Class 7 planet”.  That is a heavy gravity, nitrogen/oxygen atmosphere planet, [i] (Footnote) with biological life-forms, in proximity to a single, yellow, medium-size, low-radiation sun or “Type 12 star”.  The proper designations are difficult to translate accurately due to the extreme limitations of astronomical nomenclature in the English language.

There are as many varieties of life forms as there are grains of sands on the beach.”

— The words of “Airl”, Officer, Pilot and Engineer of The Domain Expeditionary Force as recorded in the Official Transcript of the U.S. Army Air Force Roswell Army Air Field, 509th Bomb Group, SUBJECT: ALIEN INTERVIEW, 28. 7. 1947, 1st Session


FOOTNOTE:

[i] “… a heavy gravity, nitrogen/oxygen atmosphere planet…”

The Earth’s atmosphere is a layer of gases surrounding the planet Earth and retained by the Earth’s gravity. It contains roughly (by molar content/volume) 78.08% nitrogen, 20.95% oxygen, 0.93% argon, 0.038% carbon dioxide, trace amounts of other gases, and a variable amount (average around 1%) of water vapor. This mixture of gases is commonly known as air. The atmosphere protects life on Earth by absorbing ultraviolet solar radiation and reducing temperature extremes between day and night.

There is no definite boundary between the atmosphere and outer space. It slowly becomes thinner and fades into space. Three quarters of the atmosphere’s mass is within 11 km of the planetary surface. In the United States, people who travel above an altitude of 80.5 km (50 statute miles) are designated astronauts. An altitude of 120 km (~75 miles or 400,000 ft) marks the boundary where atmospheric effects become noticeable during re-entry. The Kármán line, at 100 km (62 miles or 328,000 ft), is also frequently regarded as the boundary between atmosphere and outer space.

The atmosphere of Mars is relatively thin, and the atmospheric pressure on the surface varies from around 30 Pa (0.03 kPa) on Olympus Mons’s peak to over 1155 Pa (1.155 kPa) in the depths of Hellas Planitia, with a mean surface level pressure of 600 Pa (0.6 kPa), compared to Earth’s 101.3 kPa. However, the scale height of the atmosphere is about 11 km, somewhat higher than Earth’s 6 km. The atmosphere on Mars consists of 95% carbon dioxide, 3% nitrogen, 1.6% argon, and contains traces of oxygen, water, and methane. The atmosphere is quite dusty, giving the Martian sky a tawny color when seen from the surface; data from the Mars Exploration Rovers indicates the suspended dust particles are roughly 1.5 micrometres across.

The atmosphere of Venus, the second planet from the Sun, is much denser and hotter than that of Earth. The surface temperature and pressure on Venus are 740 K (467°C) and 93 bar, respectively. The Venusian atmosphere supports thick persistent clouds made of sulfuric acid, which make optical observations of the surface impossible. The information about surface features on Venus has been obtained exclusively by radar imaging conducted from the ground and Venera 15-16 and by Magellan space probes. The main atmosphereric gases on Venus are carbon dioxide and nitrogen, which make up 96.5% and 3.5% of all molecules. Other chemical compounds are present only in trace amounts.

The atmosphere of Venus is in state of a vigorous circulation and super-rotation. The whole atmosphere circles the planet in just four days (super-rotation), which is a short time compared with the sideral rotational period of 243 days. The winds supporting super-rotation blow as fast as 100 m/s. Near the poles of Venus anticyclonic structures called polar vortexes are located. In them the air moves downward. Each vortex is double eyed and shows a characteristic S-shaped pattern of clouds.

Only the ionosphere and thin induced magnetosphere separate venusian atmosphere from the space. They shield the atmosphere from the solar wind, which usually does not penetrate deep into it. However they are incapable of preventing the loss of water, which is continuously blown away by the solar wind through the induced magnetotail.

Despite the harsh conditions on the surface, at about a 50 km to 65 km level above the surface of the planet the atmospheric pressure and temperature is nearly the same as that of the Earth, making its upper atmosphere the most Earth-like area in the Solar System, even more so than the surface of Mars. Due to the similarity in pressure, temperature and the fact that breathable air (21% oxygen, 78% nitrogen) is a lifting gas on Venus in the same way that helium is a lifting gas on Earth.”

— Reference:  Wikipedia.org

Originally posted 2015-04-02 08:28:41. Republished by Blog Post Promoter

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