Engineering the Taming of Gravity has taken on many concepts, here are some of the prevailing forms of it here on Earth
Here are two lists of scientific concepts and theories that are relevant to the understanding and engineering of taming gravity. The first is of the prevailing conservative concepts. The second list is of the more fringe yet more likely the actual used to travel to the stars.
Conservative Concepts (probably never going to be used):
1. General Theory of Relativity:
The General Theory of Relativity, formulated by Albert Einstein, describes the force of gravity as the curvature of spacetime caused by mass and energy. In the context of artificial gravity, this theory is not directly applicable, as it deals with natural gravity. However, understanding the fundamental nature of gravity is crucial for space missions and considerations regarding gravity’s effects on the human body.
2. Rotational Kinematics and Dynamics:
Rotational kinematics and dynamics deal with the motion of objects in a circular or rotational path. These principles are essential for understanding the centripetal force method of creating artificial gravity through the rotation of a spacecraft or space station. Concepts such as angular velocity, centripetal acceleration, and Coriolis effect are relevant here.
3. Coriolis Effect:
The Coriolis effect is an apparent deflection of moving objects caused by the rotation of the Earth. In the context of rotating space stations or spacecraft, the Coriolis effect can have implications for the perception of motion and orientation for astronauts and needs to be considered during the design phase.
4. Linear Acceleration and Constant Acceleration:
Linear acceleration involves the change in velocity over time for an object moving in a straight line. The concept of constant acceleration is particularly relevant to the linear acceleration method of creating artificial gravity, as discussed in the previous response.
5. Inertial Forces:
Inertial forces arise in non-inertial reference frames, such as rotating systems, and are experienced by objects and observers in such frames. For astronauts in a rotating space station, the inertial forces experienced are associated with the artificial gravity generated by the rotation.
6. Space Habitat Engineering:
The design and engineering of space habitats play a crucial role in implementing artificial gravity solutions. Considerations include the size and shape of the habitat, structural integrity, materials used, and the means of generating artificial gravity.
7. Space Human Physiology:
Understanding how the human body responds to different gravity conditions, including microgravity and artificial gravity, is essential for ensuring the health and safety of astronauts during space missions. Research in space human physiology helps inform the design of artificial gravity systems and the mitigation of potential health risks associated with long-duration space travel.
Fringe Breakthrough Concepts (most likely what is already used by extraterrestrials):
1. Metric engineering:
Metric engineering does not have a widely recognized scientific definition related to artificial gravity, the above-mentioned concepts and theories form the basis of understanding and engineering solutions for artificial gravity in space missions. Scientists and engineers continuously work on these principles to develop feasible and effective ways of simulating gravity for the well-being of astronauts during extended space exploration.
Check out this link here to all posts on research (and researchers) on Metric Engineering.
2. A/C Gravity:
A/C Gravity is a theory of the late Dr. Ning Li. The late Dr. Ning Li theorized that a gravity like force could be made by combining the tiny gravities of individual atoms spinning coherently in a superconducting graphite disc. This effect would be similar to a Laser. In a Laser tiny individual light photons of a single wave length combine coherently to make a large macro-single-wave light beam. That is why it is called light amplification by stimulated emission of radiation. A/C Gravity would work like this. But instead of light waves it would be gravity waves combining coherently to make a macro, stronger directed gravity wave.
Check out this link here to all posts on the late Dr. Ning Li’s work.
3. The Alcubierre Warp Drive:
The Alcubierre warp drive is a theoretical concept proposing faster-than-light travel without violating relativity. It envisions creating a “warp bubble” around a spacecraft using a hypothetical “warp drive.” Spacetime is contracted in front and expanded behind the vessel, allowing it to move faster than light within the bubble. The concept relies on exotic matter with negative energy density, counteracting positive energy demands for warp creation. While passengers inside the bubble would not experience time dilation, the immense energy requirements and unknown effects make its feasibility uncertain. As of September 2021, the Alcubierre warp drive remains a fascinating yet unproven idea in theoretical physics.
Check out this link here for post on the Alcubierre warp drive.
4. Gravitomagnetic Field Effects:
Gravitomagnetic fields, arising from Einstein’s theory of general relativity, manifest around rotating massive objects. Analogous to how a rotating object drags surrounding air, these fields distort spacetime due to the object’s rotation. Although incredibly weak in most scenarios, they have been experimentally confirmed to some extent. Gravitomagnetic effects are crucial in extreme scenarios, like the vicinity of massive rotating celestial bodies. In everyday situations such as spacecraft or space habitats generating artificial gravity through rotation, their influence is negligible and can be disregarded in favor of simpler Newtonian mechanics for practical purposes.
However, gravitomagnetic field effects may be at work in the late dr. Ning Li’s A/C Gravity. Rya or YouTube’s AlienScientist describes this effect at play in UFOs. Even in Dr. Jack Sarfatti’s theories on how the Tic Tacs work my involve a gravitomagnetic field effect. In fact, gravitomagnetic field effects may be an intimate part of what Harold Puthoff calls metric engineering.
Check out this link here for post on the Gravitomagnetic Field Effects.
With the official recognition by the US Navy that we have UAP or (UFOs) buzzing our Navy vessels it is becoming more accepted not only to talk about the possibility of Taming Gravity but also to embark on research into actually tame gravity. Because of this, I am sure that there will be new and diverse concepts of how to tame gravity. I will add these new concepts as they come out in the scientific community here on my Taming Gravity website.
Credits:
- “This blog post was generated with the assistance of GPT-3, an AI language model developed by OpenAI.”
The following is the original page post here including both my original ideas and the aid of ChatGPT 4.0. What is posted above is the most recent rendition of “Engineering Taming Gravity” using ChatGPT 4.0.
Engineering the Taming of Gravity has taken on many concepts, here are some of the prevailing forms of it here on Earth
Here are two lists of scientific concepts and theories that are relevant to the understanding and engineering of taming gravity. The first is of the prevailing conservative concepts. The second list is of the more fringe yet more likely the actual used to travel to the stars.
Conservative Concepts (probably never going to be used):
1. General Theory of Relativity:
The General Theory of Relativity, formulated by Albert Einstein, describes the force of gravity as the curvature of spacetime caused by mass and energy. In the context of artificial gravity, this theory is not directly applicable, as it deals with natural gravity. However, understanding the fundamental nature of gravity is crucial for space missions and considerations regarding gravity's effects on the human body.
2. Rotational Kinematics and Dynamics:
Rotational kinematics and dynamics deal with the motion of objects in a circular or rotational path. These principles are essential for understanding the centripetal force method of creating artificial gravity through the rotation of a spacecraft or space station. Concepts such as angular velocity, centripetal acceleration, and Coriolis effect are relevant here.
3. Coriolis Effect:
The Coriolis effect is an apparent deflection of moving objects caused by the rotation of the Earth. In the context of rotating space stations or spacecraft, the Coriolis effect can have implications for the perception of motion and orientation for astronauts and needs to be considered during the design phase.
4. Linear Acceleration and Constant Acceleration:
Linear acceleration involves the change in velocity over time for an object moving in a straight line. The concept of constant acceleration is particularly relevant to the linear acceleration method of creating artificial gravity, as discussed in the previous response.
5. Inertial Forces:
Inertial forces arise in non-inertial reference frames, such as rotating systems, and are experienced by objects and observers in such frames. For astronauts in a rotating space station, the inertial forces experienced are associated with the artificial gravity generated by the rotation.
6. Space Habitat Engineering:
The design and engineering of space habitats play a crucial role in implementing artificial gravity solutions. Considerations include the size and shape of the habitat, structural integrity, materials used, and the means of generating artificial gravity.
7. Space Human Physiology:
Understanding how the human body responds to different gravity conditions, including microgravity and artificial gravity, is essential for ensuring the health and safety of astronauts during space missions. Research in space human physiology helps inform the design of artificial gravity systems and the mitigation of potential health risks associated with long-duration space travel.
Fringe Breakthrough Concepts (most likely what is already used by extraterrestrials):
1. Metric engineering:
Metric engineering does not have a widely recognized scientific definition related to artificial gravity, the above-mentioned concepts and theories form the basis of understanding and engineering solutions for artificial gravity in space missions. Scientists and engineers continuously work on these principles to develop feasible and effective ways of simulating gravity for the well-being of astronauts during extended space exploration.
Check out this link here to all posts on research (and researchers) on Metric Engineering.
2. A/C Gravity:
A/C Gravity is a theory of the late Dr. Ning Li. The late Dr. Ning Li theorized that a gravity like force could be made by combining the tiny gravities of individual atoms spinning coherently in a superconducting graphite disc. This effect would be similar to a Laser. In a Laser tiny individual light photons of a single wave length combine coherently to make a large macro-single-wave light beam. That is why it is called light amplification by stimulated emission of radiation. A/C Gravity would work like this. But instead of light waves it would be gravity waves combining coherently to make a macro, stronger directed gravity wave.
Check out this link here to all posts on the late Dr. Ning Li's work.
3. The Alcubierre Warp Drive:
The Alcubierre warp drive is a theoretical concept proposing faster-than-light travel without violating relativity. It envisions creating a "warp bubble" around a spacecraft using a hypothetical "warp drive." Spacetime is contracted in front and expanded behind the vessel, allowing it to move faster than light within the bubble. The concept relies on exotic matter with negative energy density, counteracting positive energy demands for warp creation. While passengers inside the bubble would not experience time dilation, the immense energy requirements and unknown effects make its feasibility uncertain. As of September 2021, the Alcubierre warp drive remains a fascinating yet unproven idea in theoretical physics.
Check out this link here for post on the Alcubierre warp drive.
4. Gravitomagnetic Field Effects:
Gravitomagnetic fields, arising from Einstein's theory of general relativity, manifest around rotating massive objects. Analogous to how a rotating object drags surrounding air, these fields distort spacetime due to the object's rotation. Although incredibly weak in most scenarios, they have been experimentally confirmed to some extent. Gravitomagnetic effects are crucial in extreme scenarios, like the vicinity of massive rotating celestial bodies. In everyday situations such as spacecraft or space habitats generating artificial gravity through rotation, their influence is negligible and can be disregarded in favor of simpler Newtonian mechanics for practical purposes.
However, gravitomagnetic field effects may be at work in the late dr. Ning Li's A/C Gravity. Rya or YouTube's AlienScientist describes this effect at play in UFOs. Even in Dr. Jack Sarfatti's theories on how the Tic Tacs work my involve a gravitomagnetic field effect. In fact, gravitomagnetic field effects may be an intimate part of what Harold Puthoff calls metric engineering.
Check out this link here for post on the Gravitomagnetic Field Effects.
With the official recognition by the US Navy that we have UAP or (UFOs) buzzing our Navy vessels it is becoming more accepted not only to talk about the possibility of Taming Gravity but also to embark on research into actually tame gravity. Because of this, I am sure that there will be new and diverse concepts of how to tame gravity. I will add these new concepts as they come out in the scientific community here on my Taming Gravity website.
Credits: