Earth, A Vibrating Planet
From the beginning, shock waves and impacts have played, and still are playing, very important roles in the configuration of numerous astronomical objects in the universe. About 4.5 billion years ago, our solar system was created by a series of strong shock waves due to a series of explosions in a nearby supernova.
Since then, minor and local shock waves have been and still are forming and deforming many things on our planet, living or nonliving. The Earth is covered with two distinct fluids: atmosphere and hydrosphere. Changeable gravitational forces from external objects, like the Moon, the Sun, and other planets, on one side, and gravity from the core of the Earth on the other side, pull and release covering fluids that thrill the Earth’s crust continuously. The tidal forces combined with uneven distribution of solar energy, Coriolis force, and wobbling effects, drive many hydrological, geological, and biological phenomena, including strong currents in the atmosphere and oceans. External forces totally produce a strong and persistent centrifugal effect over everything and everywhere on the Earth’s crust. More prominently than anywhere, we can see these effects on the fine oceanic sediments, which are being pushed from the center to the periphery. In fact, the steep slope of continental shelves has been configured by peripheral migration of fine oceanic bed sediments, which are pushing constantly towards the continents. Loading the peripherals and unloading the central parts of the oceans inevitably makes some fractures in the thinned crust of the ocean, here and there. This is the main driver of plate tectonics. Moving alongside, crushing, and colliding of these huge plates during hundreds of millions of years have changed the face of the planet many times slowly but forcefully.
In fact, the main energy sources which drive plate tectonics are external, not internal, as the current theories say. External energy also includes a considerable part of the huge amounts of solar radiation which is received by plants and stored in sediments alongside the history of life and eventually injected into the mantle. Today, we are aware of the vast and deep penetration of life (alive or dead) into the Earth’s crust. Most of them eventually will be swallowed by Mother Earth.
Current theories of geo-science, which inappropriately emphasize obscure forces like internal radioactivity and the remnant of primary heat from creation time, are no longer convincing. Who and how measured the amounts of these forces?
This old theory does not have enough ability to explain most of the problems which earth sciences are facing, and consequently does not have enough capacity to anticipate and prevent future events. Vibration theory does not deny the strong and brilliant plate tectonics theory, but has many debates on its main energy sources and its mechanisms of action.
A robust scientific theory must have the same explanation for similar events universally. If the main causes of volcanism on Earth are internal heat, why must the 400 active volcanoes on Io (one of Jupiter's moons) be explained by external (tidal) forces? Please see "In Depth | IO - NASA Science Exploration".
Vibration theory provides new and simple answers to many old, difficult questions of geo-sciences, which have applicability on other solar system objects. It also has remarkable power of explaining and forecasting. For instance, let us look at its explanation regarding the formation and distribution of hydrocarbon resources on Earth. As I mentioned before, constant vibration brushes and pushes oceanic bed sediments (mostly organic) towards continental shelves and beyond, over the nearby lands. Naturally, light organic matter will rise more easily over the steep slope of the shelves, and heavier materials (mostly heavy minerals) remain at the base of the shelves in the sea. This is one of the most important tools for mineral differentiation on our planet. Light organic matter on the shelves will be covered by new sediments, then slowly evolve to gas and oil, and migrate towards the shores. If there is a depression or gulf in a nearby shoreline, these petroleum resources will fill these peripheral basins. By subsequent folding of sediments, these pools of oil progress over the continents. In this way, at first glance, you can see most of the recognized petroleum resources are located in such places. At the next step, it gives you a simple plan for searching new hydrocarbon pools. Of course, submarine mountain ranges and other obstacles may cause some misleading, but the general rule is the same.
The advantages of vibration theory are not restricted to those I mentioned here. I leave them for another time. But what I am very interested in at the moment is not any of them. My main interest is fresh water. Living for nearly seventy years in harsh deserts has made me thirsty and eager to see fresh water, grass, health, and peace. I wish water, health, and peace for every creature. In my experience, deserts and harsh weather grow hard vegetation, rough animals, and hard people with frozen minds. Prevalence of paranoia in drier parts of the planet is high. So for a long time, I have been seeking a safe way to create more natural fresh water. Finally, I am sure I found the way. I decided to do this by artificial upwelling of deep sea cold water. In other words, I hope that by transferring huge amounts of deep sea cold water (DSCW) to dry subtropical beaches, like some coastlines in the Middle East, we can create local weather modifications. Is that possible? Can vibration theory help? Yes, of course.
Vibration theory whispers in my ear continuously. The forces that swept all sediments from oceanic beds and pushed them towards the shores during Earth history are ready to send DSCW to beaches forever with natural energy. It is enough to give deep sea cold water "a path". I think it is true and easily testable. Endless deep cold water may be used for many good targets, cooling buildings and industries, producing plankton bloom, and above all creating local weather modifications, among others.
Fortunately, there is a natural model of weather modification by DSCW in the Middle East (Dhofar). The Arabian Peninsula has more than 6,000 kilometers of coastline. Nearly all parts of them are bare and dry, except 100 kilometers alongside the southeast of Oman (Dhofar). This green strip is about 15 kilometers wide. In fact, Dhofar is a green pearl amongst the hell and is imitable by artificial upwelling. Depending on our target, we can use special tools. If we want to cool buildings and factories in local villages or ports, the best tool may be polyethylene pipes. Big mother pipes will deliver cold water to the coast. By inserting smaller pipes into the mother pipes, we can extract large amounts of cold water, which will be replaced immediately. If we want to make plankton bloom and weather modification, we will need to do some dredging at local shelves and at the entrance of local gulfs in order to cool the shores. I wrote the details in a separate text which will be uploaded soon.