The magnetic monopole
and how it traps observers in the magnetic field B (The Earth) on the field line
Welcome to this documentary about the magnetic monopole, a hypothetical elementary particle that is an isolated magnet with only one magnetic pole. In this documentary we will explore how the monopole traps observers in the magnetic field B (The Earth) on the field line, which the observer then perceives as an enormous surface, how it works, how to prove it and what it all reveals about magnetic interactions. We will also discuss what the observer sees when he looks at the night sky, and how this is related to the rotation of the monopole in the fourth dimension.
The monopole is one of the most mysterious and fascinating concepts in physics. Its existence was first proposed by Paul Dirac in 1931, who showed that if a monopole existed, it would explain why electric charge is quantized, that is, why there are only discrete units of electric charge. The monopole would also have a net north or south "magnetic charge", analogous to electric charge, but which has never been experimentally observed. The monopole would generate a magnetic field that looks like that of a bar magnet, but without a counter-pole. The magnetic field would start at the north pole of the monopole and end at the south pole of the monopole.
The search for the monopole has inspired and challenged many scientists and adventurers. There have been various theories and experiments to try to find or create the monopole, but so far without success. One of the most controversial and intriguing theories is that of Chris Folgers, who in 2023 proposed that there is a monopole at the center of the Earth, which is responsible for the Earth's magnetic field. The Folgers theory tries to solve a number of problems related to the Earth's magnetic field, such as:
The origin and maintenance of the Earth's magnetic field, which cannot be fully explained by the dynamo theory, which states that the Earth's magnetic field is generated by electric currents in the Earth's outer core.
The variation and reversal of the Earth's magnetic field, which cannot be fully predicted or understood by current models.
The deviation and tilt of the Earth's magnetic field relative to the Earth's rotation axis, which cannot be fully explained by the influence of other celestial bodies or by internal processes in the Earth.
The Folgers theory states that the monopole in the Earth rotates in a fourth dimension, which we cannot directly observe, but can only infer from the projection of the magnetic field onto our three-dimensional space. The rotation of the monopole in the fourth dimension would be responsible for the variation, reversal, deviation and tilt of the Earth's magnetic field. The Folgers theory also states that the magnetic field of the monopole is stronger than the magnetic field of other sources, such as the dynamo or the solar wind.
Zeker, hier is de vertaling van het volgende stuk naar het Engels:
But how can we know if there really is a monopole in the Earth? How can we prove that the magnetic field that we observe comes from a single pole and not from two or more poles? How can we measure or observe what is happening in the fourth dimension? These are some of the questions that we will try to answer in this documentary, using the latest scientific insights and technologies.
One way to test the Folgers theory is to look at the observers who are in the magnetic field B (The Earth), that is, the observers who are on the field line of the monopole. These observers are trapped in the magnetic field of the monopole, and cannot escape from its rotation, which drags them into the fourth dimension. These observers cannot see the whole picture, because they only see a projection of the real magnetic field, which exists in four dimensions.
A projection is a way to represent something that exists in more dimensions in fewer dimensions, by leaving out one or more dimensions. An example of a projection is a shadow, which shows how something looks in two dimensions when light shines on it. If we project the magnetic field onto a flat surface, we leave out one dimension, which causes us to lose or distort some details. If we project the magnetic field onto a three-dimensional space, we leave out two dimensions, which causes us to lose or distort even more details. Therefore, we do not see how the magnetic field really rotates and changes in four dimensions, but only how it seems to be in three or two dimensions.
The observers in the magnetic field B (The Earth) would therefore have a distorted view of reality. They would think that they are located on a huge surface, which is determined by the shape and direction of the magnetic field. They would also think that they are located at a fixed point, while they are actually constantly moving and rotating in the fourth dimension. They would also think that they are alone, while they are actually surrounded by other observers who are located on the same or other field lines.
The area around the monopole would be influenced by the magnetic field that the monopole generates or strengthens. The magnetic field would exert a force on the rocks, water and organisms that are located in the area, and change their properties, movement and interaction. The magnetic field would also depend on the rotation of the monopole in the fourth dimension, which we cannot directly observe, but can only infer from the projection of the field onto our three-dimensional space.
A possible scenario for the area around the monopole is that it would be a region of high magnetic field strength, with strange and unusual properties. The magnetic field would be so strong that it would be difficult or impossible to travel through the area, and the organisms that live there would have to adapt to the extreme conditions. The area would also be a source of great power, and could be used to generate electricity or to create new technologies.
The Folgers theory is still in its early stages, and there is much that we do not know about the monopole and its effects. However, the theory is intriguing, and it has the potential to revolutionize our understanding of the universe
But how can we access the monopole and magnetism through the Folgers theory? How can we use this new source of energy and information? What are the potential applications and implications of this discovery? These are some of the questions that we will try to answer in this documentary, using the latest scientific insights and technologies.
One way to access the monopole and magnetism is to look at the observers who are in the magnetic field B (The Earth), that is, the observers who are on the field line of the monopole. These observers are trapped in the magnetic field of the monopole, and cannot escape from its rotation, which drags them into the fourth dimension. These observers cannot see the whole picture, because they only see a projection of the real magnetic field, which exists in four dimensions.
A projection is a way to represent something that exists in more dimensions in fewer dimensions, by leaving out one or more dimensions. An example of a projection is a shadow, which shows how something looks in two dimensions when light shines on it. If we project the magnetic field onto a flat surface, we leave out one dimension, which causes us to lose or distort some details. If we project the magnetic field onto a three-dimensional space, we leave out two dimensions, which causes us to lose or distort even more details. Therefore, we do not see how the magnetic field really rotates and changes in four dimensions, but only how it seems to be in three or two dimensions.
The observers in the magnetic field B (The Earth) would therefore have a distorted view of reality. They would think that they are located on a huge surface, which is determined by the shape and direction of the magnetic field. They would also think that they are located at a fixed point, while they are actually constantly moving and rotating in the fourth dimension. They would also think that they are alone, while they are actually surrounded by other observers who are located on the same or other field lines.
The area around the monopole would be influenced by the magnetic field that the monopole generates or strengthens. The magnetic field would exert a force on the rocks, water and organisms that are located in the area, and change their properties, movement and interaction. The magnetic field would also depend on the rotation of the monopole in the fourth dimension, which we cannot directly observe, but can only infer from the projection of the field onto our three-dimensional space.
A possible scenario for the area around the monopole is that it would be a region of high magnetic field strength, with strange and unusual properties. The magnetic field would be so strong that it would be difficult or impossible to travel through the area, and the organisms that live there would have to adapt to the extreme conditions. The area would also be a source of great power, and could be used to generate electricity or to create new technologies.
The Folgers theory is still in its early stages, and there is much that we do not know about the monopole and its effects. However, the theory is intriguing, and it has the potential to revolutionize our understanding of the universe.