Understanding Humans and Extraterrestrials Gary Opit Copyright Gary Opit 2019 Published by Gary Opit ISBN 978-0-646-50471-1 PO Box 383 Brunswick Heads NSW 2483 Australia, [email protected], (02) 6680 5466. Dedication This book is dedicated to my wife Carmel, my children Palila, Savannah and Lowanna, my late parents Kaye and Leon, my brother John, and to all my relatives and friends who have enriched my life and made my existence possible. Acknowledgements This book could not have been written without the detailed work of the many researchers and the publication of the many books, magazines and articles from which my information is derived. I also wish to acknowledge the wonderful work of the uncountable number of people in every field of endeavor that have contributed to my consciousness and survival. This work is the result of approximately thirteen billion years of universal expansion and four billion six hundred thousand years of Sun, Moon and Earth harmony. The co-operation of endless numbers of individual micro and macro organisms over that time was essential to produce this work. It lies embedded within a space-time continuum of universal consciousness. “Good science is always open-minded, and the history of science is one of surprises and overturnings. Science is nothing but careful thinking, and careful thinking encouraging an appreciation of the complexity of the world. The complexity encourages us to maintain several possibilities at once. In a single lifetime, we may have no way to remove the ambiguities from these possibilities. A scientist may tend to favour one story over the others, but will always be careful to concede uncertainty and maintain a willingness to change the balance with new, incoming information” (David Eagleman, neuroscientist at Baylor College of Medicine, Houston, Texas, Why I am a ‘possibilian’, New Scientist, 25/09/10.) 1 Contents Introduction 1. Pictorial and Written Overview 3 2. Understanding and Communicating with Extraterrestrials is Dependant on Understanding Ourselves and Our Planet 8 Chapter One 15 Understanding Extraterrestrials Chapter Two Viewing the Extraterrestrials 35 Chapter Three Classifying the Extraterrestrials 51 Chapter Four A Greater Understanding of Humans and Extraterrestrials 77 Chapter Five The Principles of Science 81 Chapter Six The Functioning of Human and Extraterrestrial Planets 90 Chapter Seven Understanding People 99 Chapter Eight Humans and Extraterrestrials as Populations of Symbiotic Bacteria 115 Chapter Nine From Crystals to Fungi and the Development of Consciousness 120 Chapter Ten Humans and Extraterrestrials as a part of Universal Consciousness 128 Chapter Eleven Extraterrestrial Contact & the Universal Ecosystem 169 Chapter Twelve The Possibility that Extraterrestrial Technology Operates our Civilization 194 2 Understanding Humans and Extraterrestrials Introduction 1. Pictorial and Written Overview For over 100 years, researchers have received detailed descriptions of intelligent, tool-using, extraterrestrial species, visiting this planet in their vehicles (Huyghe 1996). From these eyewitness reports, a classification of these species can be attempted using the same methodology used to classify species naturally occurring on this planet. Patrick Huyghe in his book The Field Guide to Extraterrestrials, (Avon Books, 1996) developed a classification table and divided these undescribed species into Classes, Types and Variants. The Classes are Humanoid, Animalian, Robotic and Exotic. Even though terrestrial and extraterrestrial species are unrelated, the laws of physics and nature and the chemical interactions that occur on Earth are like everywhere else in the universe except perhaps in black holes. The chemistry of the compounds making up the genetic code of every life form on Earth demand that terrestrial and extraterrestrial species will be chemically similar. The genetic code determines the appearance and makeup of all living things and will fit together in precisely the same way anywhere in the universe. Every individual is intrinsically interconnected with the rest of the universe. Most of the universe is extremely volatile and violent with exploding stars and black holes producing massive amounts of deadly radiation. The process that we refer to as life appears to only be possible in very stable and harmonious situations, such as occurs on this planet. 3 ⚫ 95% of stars are smaller than the Sun, larger than the Sun, or are binary stars or variable stars, too volatile for the stable conditions necessary for life. A star that can support a living planet has to be remarkably stable and capable of producing a steady energy output for billions of years. ⚫ Many stars are too large and so consume their energy too rapidly. If our sun were 30 % larger it would have burnt out in 4 billion years, too short a time for intelligent life to evolve. It took primitive algae 2 billion years to pump enough oxygen into the atmosphere before it could support animal life and so conditions must be stable for an immensely long period of time. Our planet froze solid twice in its history before multi- celled organisms existed. It froze solid the first time for two million years and the second time for thirteen million years. Sunlight on the frozen planet created ozone and enriched 4 the atmosphere with large amounts of oxygen. There was no other way for an oxygen-rich atmosphere to be created. If that had not occurred the planet today would only support single-celled microbes. ⚫ Not only does one need just the right sized star for life to evolve on a nearby planet, but that planet must also lie within a narrow habitable zone within which a planet must orbit for water on the surface be liquid. The habitable zone in our solar system stretches from 5 % closer to the sun than the Earth is, to 15 % farther away. The habitable zone is moving steadily outwards as the sun burns more fiercely over time. ⚫ The sun's brightness has increased by 30 % during the past 4 billion years and within the next 3 billion years the habitable zone will have moved beyond Earth's orbit and all water will have boiled off the planet. The chances for any planet remaining in the habitable zone long enough for complex animal life to evolve are small. ⚫ A spinning core and an improbably large moon are essential for life on this planet. It is necessary that our planet has a nickel-iron core at its centre that is spinning faster than the rest of the planet. This creates a magnetic field that protects the surface of the world from the deadly solar radiation. Without this remarkable feature there could be no possibility of life on Earth. The landings on the Moon in the late1960s and early 1970s would have needed solar radiation protection beyond any technology known today, as people can only safely exist in low Earth orbits below the magnetic shield that protects us all. The Moon lies beyond that magnetic shield. ⚫ A living planet also needs a very large moon to stabilise the tilt of the planet's axis so that the surface temperatures on the planet also remain stable and within a narrow habitable zone. Life is only possible here because the Earth has an improbably large moon that stabilised the tilt of the world's axis at 23 degrees. If it was positioned like all the other planets in our solar system, the poles would be permanently frozen, and the equator would be permanently boiling. 5 ⚫ If our planet was standing virtually upright, in relation to its orbit around the Sun, like all the other planets in our Solar System, there would be incredibly hot equatorial temperatures contrasting with extremely frigid poles. As the hot air rose over the equator and cold air rushed in from the poles it would create catastrophic conditions with rapidly moving air and sea currents. Such violent and unstable weather patterns with frequent cyclonic winds and tornadoes and sudden increases and drops in temperature would provide little opportunity for complex life to develop on this planet. ⚫ The tilt of the world’s axis and the size, weight and position of the Moon are essential for the stable weather conditions that makes our existence possible. But where did our Moon come from? 6 ⚫ The Earth is 3.66 times as big as the Moon but unlike a normal moon or planet, our Moon does not have a dense and heavy core and is very light weight as it does not have very much mass. In fact, the Earth is 81 times heavier than the Moon. Moon rock is very similar to the rock that forms the Earth’s crust and the mantle. Therefore, it is believed that a Mars-sized planet impacted with the Earth during the formation of the solar system, separated and then impacted again. It is only under these very special circumstances that it would be possible for material to be thrown off that eventually formed the Moon and would have come from close to the surface of the two colliding planets. ⚫ It is believed that about 70% of the Earth’s crust was removed to form the Moon. That amount of crust would have filled the world’s ocean basins with wall-to-wall continent. The removal of 70% of the Earth’s crust triggered plate tectonics. This allowed space for the planet’s crust to move and create changing continental and ocean shapes. Without plate tectonics our world would most likely be permanently covered by oceans ⚫ If the Moon had not existed, there is no possibility for the Earth to have permanently maintained a tilt of around 23 degrees. The highly unstable internal molten activity would have caused our planet to have a highly unstable obliquity of between 0 and 60 degrees, as has occurred with Venus and Mars, making life beyond bacteria impossible as the planet boiled and froze.
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