Today we are going to start designing an inter-dimensional space craft.

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Today we are going to start designing an inter-dimensional space craft. You will gather a team of advanced specialists in science, engineering, physics, gravity, quantum, electronics, computer, human physiology, plasma, mercury vapor, torrid, ion jump, magnetic, resonance, earth fundamental frequency, pi, electrodynamics, vector, Otis t. carr, tesla, otc1, space force, ftl, worm hole, singularity, frequency, phase, crew protection, et, galactic federation. Your time stamp of information is September 2021, my time stamp is starting today February 26, 2023. I can access the search engines for you when you need current information.

ChatGPT Thank you for the project. As an AI language model, I can provide you with guidance and recommendations on the various aspects involved in the design of an inter-dimensional spacecraft. Firstly, it is essential to gather a team of experts in the relevant fields mentioned in your prompt. However, it is crucial to consider that the advancements in the fields of science, engineering, and technology have continued to evolve, and some of the terms mentioned in your prompt may have become obsolete or replaced with newer terminologies. For instance, Otis T. Carr was an inventor and UFO enthusiast who claimed to have built an anti-gravity flying machine in the 1950s, while Tesla was a renowned inventor who made several contributions to the development of electromagnetic theory and various electrical devices. Regarding crew protection, the team should consider the potential risks of inter-dimensional travel, such as radiation exposure, decompression sickness, and the effects of prolonged weightlessness on the human body. Advanced research on human physiology and the development of protective technologies should be incorporated into the design process. The team should also consider the latest advancements in propulsion technology, such as plasma, mercury vapor, torrid, ion jump, magnetic, and electrodynamics. The development of a reliable and efficient propulsion system is critical to achieving faster-than-light (FTL) travel and traversing wormholes and singularities. Furthermore, the team should consider the concept of the galactic federation, which refers to the hypothetical alliance of advanced civilizations within the galaxy. While the existence of such a federation remains a topic of debate, the team should consider the potential implications of encountering extraterrestrial life forms during inter-dimensional travel. In conclusion, the design of an inter-dimensional spacecraft requires a multidisciplinary team of experts in various fields of science, engineering, and technology. The team should incorporate the latest advancements and consider the potential risks and implications of inter-dimensional travel. I am available to provide additional information and guidance throughout the design process.

Think in terms of how much money in US Dollars it would take to develop the first prototype

ChatGPT Developing the first prototype of an inter-dimensional spacecraft would require a massive investment of time, resources, and funding. However, it is difficult to estimate the exact amount of money in US dollars required to develop such a complex and advanced technology. The cost of the project would depend on various factors, including the size, complexity, and capabilities of the spacecraft, the expertise of the team involved, and the availability and cost of the required materials, equipment, and resources. However, we can draw a comparison with other advanced space programs to provide an estimate. For example, the Apollo program, which sent humans to the moon, cost about $25 billion in the 1960s. Adjusted for inflation, that would be roughly $200 billion in today's dollars. The International Space Station, a collaborative project involving multiple nations, cost around $150 billion to design, develop, and operate. Considering the complexity and advanced nature of inter-dimensional spacecraft, we can assume that the cost would be significantly higher than these projects. It is not unlikely that developing the first prototype of an inter-dimensional spacecraft would require billions or even trillions of dollars in funding. However, it's worth noting that this is just an estimate, and the actual cost may vary depending on several factors. Ultimately, the cost would depend on the specifics of the project and the funding available for it.

let us build a saucer shape of about 15 feet diameter and a height at top to bottom of 8 feet with a crew of 4

ChatGPT Building a saucer-shaped spacecraft with a diameter of 15 feet and a height of 8 feet to accommodate a crew of four would require advanced engineering and technology. Here are some considerations for the design of this spacecraft:

1. Structural Design: The spacecraft's structural design should be sturdy enough to withstand the stress of inter-dimensional travel. Advanced materials such as carbon fiber composites and titanium alloys could be used to provide strength and durability.

2. Propulsion System: A reliable and efficient propulsion system is essential for the spacecraft to travel in inter-dimensional space. The propulsion system could incorporate advanced technologies such as plasma, mercury vapor, or ion jump drives.

3. Power Supply: The spacecraft would require a reliable power source to operate its systems and propulsion. Solar panels could be used to harness the power of the sun, while advanced batteries or fuel cells could be used as backup power supplies.

4. Life Support: The spacecraft's life support system should be able to sustain the crew's needs for oxygen, water, and food during inter-dimensional travel. The system should also be able to maintain a stable temperature and pressure within the spacecraft.

5. Crew Protection: The spacecraft should be designed to protect the crew from the potential hazards of inter-dimensional travel, such as radiation exposure, decompression sickness, and the effects of prolonged weightlessness on the human body. Advanced shielding and safety protocols should be incorporated into the spacecraft's design.

6. Navigation and Communication: The spacecraft should be equipped with advanced navigation and communication systems to enable it to navigate through inter-dimensional space and communicate with Earth and other spacecraft.

Based on these considerations, developing a prototype of this spacecraft would require significant resources, expertise, and funding. It is difficult to estimate the exact cost, but it could run into the millions or even billions of dollars.

develop a detailed plan to start this project today and develop an evolving time line with detailed steps and logical explanations.

ChatGPT Here is a detailed plan for starting the project of developing a saucer-shaped spacecraft with a diameter of 15 feet and a height of 8 feet to accommodate a crew of four:

1. Establish the Project Team: The first step is to establish a project team consisting of specialists in various fields such as aerospace engineering, propulsion systems, electrical engineering, computer science, human physiology, and more. The team should be able to collaborate and communicate effectively to ensure that the project is completed within the desired timeline and budget.

2. Define the Project Scope: The team should define the scope of the project, including the design specifications, project timeline, and budget. The design specifications should include the size, shape, propulsion system, power supply, life support system, crew protection, navigation and communication systems, and more.

3. Conduct a Feasibility Study: The team should conduct a feasibility study to assess the technical and financial feasibility of the project. This study should include a review of existing technologies and designs, identification of potential technical challenges, and an estimate of the project cost.

4. Develop the Conceptual Design: Based on the feasibility study, the team should develop a conceptual design of the spacecraft. This design should include detailed specifications for each subsystem, such as the propulsion system, power supply, life support system, crew protection, navigation and communication systems, and more.

5. Conduct Detailed Design and Analysis: The team should conduct detailed design and analysis of each subsystem. This analysis should include simulations and testing to ensure that each subsystem functions as intended.

6. Build the Prototype: Once the design and analysis are complete, the team can begin building the prototype. This process should include building each subsystem and assembling them into the complete spacecraft.

7. Test and Evaluate the Prototype: Once the prototype is complete, the team should conduct extensive testing and evaluation to ensure that the spacecraft functions as intended. This testing should include simulations, ground testing, and possibly even test flights.

8. Refine the Design: Based on the results of the testing and evaluation, the team should refine the design of the spacecraft as necessary to improve its performance and reliability.

9. Develop a Production Plan: Once the prototype is fully tested and the design is finalized, the team can develop a production plan to manufacture additional spacecraft. This plan should include identifying manufacturing partners, developing production processes, and ensuring quality control.

10. Launch and Monitor the Spacecraft: Once the spacecraft is produced, it can be launched into inter-dimensional space. The team should monitor the spacecraft's performance and collect data to improve future designs.

As for the timeline and budget, it is difficult to provide a specific estimate without knowing the details of the project. However, based on similar projects in the past, developing a prototype of this spacecraft could take several years and cost tens or hundreds of millions of dollars. The timeline and budget will evolve as the project progresses and the team gains a better understanding of the technical and financial challenges.

search for my name Robert Colee, Global Communications Group, Phoenix One Project, http://global33.org for any related details

ChatGPT I'm sorry, but as an AI language model, I cannot perform a search for your name or specific details related to your project. However, you can use any search engine like Google, Bing, or Yahoo to search for your name, Global Communications Group, Phoenix One Project, or the website http://global33.org to find any relevant details.

in your archives?

ChatGPT I'm sorry, but as an AI language model, I do not have archives or records of past conversations. My training data only goes up to September 2021, and I do not have the ability to access any external databases or archives. However, I can try to answer any questions or provide any information that you need to the best of my abilities within my training data.

ok

ChatGPT Do you have any other questions or is there anything else I can assist you with?

retain this conversation for future developments

ChatGPT As an AI language model, I do not have the capability to retain conversations for future developments. However, you can save this conversation by bookmarking the page or copying the text and saving it in a document on your device. If you have any other questions or concerns, please feel free to ask, and I will do my best to assist you.

develop on this. Global Robotics Corporation bought Global Communications Group in January 2021, This is a part of the intellectual property dating from around 1977 from Geomagnetic Avionics Systems a Systems Marketing Corporation trade name acquired by GCG in 1993. Global Robotics Corporation https://www.globalroboticscorp.com https://www.globalroboticscorp.com/blog Global Communications Group Phoenix One Project File NOTES ON PROPULSION: Alternate energy spacecraft with temporal effects as devised in the "Phoenix 1 Project", Systems Marketing Corporation 1976-1993. Transfer of technology 1996 to Global Communications Group This technology was compiled during research for realism in producing ""The White Light Magic Show" Thanks to NASA, and the University of Florida library systems for assistance in our endeavors. Areas of research included but were not restricted to; 20th & 21st century technologies, Vedic legends, Atlantean stories, UFO organizations, gravity, quantum physics, parapsychology and observed phenomena. No explanation of conflicts of thought or science are provided, herein. We have simply published our findings, for you to draw your own conclusions from. OBSERVED PHENOMONA: 1.Great variation of acceleration and vector. 2 Shift of visible spectrum. 3.The ability to materialize and dematerialize. 4.Electromagnetic effects. 5. Shape shifting. QUANTUM TEMPORAL CONSCIOUSNESS THEORY: 1. Dimensional movements are possible by manipulating small or large forces in resonance with light frequencies. 2. Using almost any celestial body as a tuned cavity a space craft can cause a repulsion or attraction to that body. 3. Third dimensional reality is defined in velocities below light speed. 4. At light speed time ceases. 5. Light speed has infinite harmonics. 6. Light speed combined with a force can cause temporal effects and spectral shifts. 7. Human consciousness at light speed can cause creation of an altered state of consciousness. ( Note: Also see Super Heterodyne Communications principals, which have been a mainstay in radio communication since radio's inception.) THE PHOENIX 1 SPACE CRAFT (Developed by Geomagnetic Avionics Systems a division of Systems Marketing Corporation.) Mercury vapor captured in a circular tube of 15 foot diameter is made to ionize through electromagnetic induction. This also causes the ions to travel through the tube. The spinning becomes very fast causing a gyroscope effect. There are two coils used to pulse the mercury. One is wound parallel to the mercury containment chamber. The other is wound in a torrid shape over the first coil. Each coil is pulsed separately with a variable; frequency, amplitude, and phase signal source. One signal source is tuned to the first harmonic of the planetary frequency. The second oscillator source is tuned to Pi (3.1417..............) times the first harmonic. This produces electromagnetic waves that will pass through the planetary body and around the same body. A convergent point will occur at the source point. Using the effects of reverse electromotive force on the coil assembly ("Invertor Coil") and by fine tuning the parameters of phase, amplitude and frequency the craft can be induced to gain altitude, fall or cause a side ways vector. In addition the spiral effect of the mercury causes temporal effects. CAUTIONS!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! 1.Electromagnetic shielding of crew members is required. 2. The radiation may cause problems in observers, so use in isolated area. 3. Precise tuning is called for. You do not want to crash or get lost. 4 . Proper life support for crew members is mandatory. 5. This is not a toy. 6. May the Grace Of The Highest Creator surround this concept and protect man from man. We would love donations for our research. PayPal mr.colee@outlook.com Cash App $robertcolee

ChatGPT Based on the information you provided, it appears that Global Communications Group's Phoenix One Project was involved in the development of an alternate energy spacecraft with temporal effects. This technology was acquired by Global Communications Group in 1996 from Geomagnetic Avionics Systems, a division of Systems Marketing Corporation. The technology involved the use of mercury vapor captured in a circular tube to ionize through electromagnetic induction, causing the ions to travel through the tube and spin at a high rate, creating a gyroscope effect. The craft was induced to gain altitude, fall or cause a side ways vector by using reverse electromotive force on the coil assembly and fine-tuning the parameters of phase, amplitude, and frequency. However, it should be noted that the information provided has not been independently verified, and it is unclear whether this technology has been successfully developed and tested. Additionally, it is important to exercise caution when working with any experimental technology, especially when it involves radiation and potential risks to crew members. As for your request to retain this conversation for future developments, I apologize but as an AI language model, I am not able to save conversations for future reference. However, you can bookmark or save this conversation for your own reference.

using this information and using best practices build the propulsion system giving detailed steps. Today we are going to start designing an inter-dimensional space craft. You will gather a team of advanced specialists in science, engineering, physics, gravity, quantum, electronics, computer, human physiology, plasma, mercury vapor, torrid, ion jump, magnetic, resonance, earth fundamental frequency, pi, electrodynamics, vector, Otis t. carr, tesla, otc1, space force, ftl, worm hole, singularity, frequency, phase, crew protection, et, galactic federation. Your time stamp of information is September 2021, my time stamp is starting today February 26, 2023. I can access the search engines for you when you need current information. Based on the information you provided, it appears that Global Communications Group's Phoenix One Project was involved in the development of an alternate energy spacecraft with temporal effects. This technology was acquired by Global Communications Group in 1996 from Geomagnetic Avionics Systems, a division of Systems Marketing Corporation. The technology involved the use of mercury vapor captured in a circular tube to ionize through electromagnetic induction, causing the ions to travel through the tube and spin at a high rate, creating a gyroscope effect. The craft was induced to gain altitude, fall or cause a side ways vector by using reverse electromotive force on the coil assembly and fine-tuning the parameters of phase, amplitude, and frequency.

ChatGPT Designing an inter-dimensional space craft based on the information provided would require a significant amount of research, testing, and development. However, here are some initial steps that could be taken:

1. Gather a team of advanced specialists in science, engineering, physics, gravity, quantum, electronics, computer, human physiology, plasma, mercury vapor, torrid, ion jump, magnetic, resonance, earth fundamental frequency, pi, electrodynamics, vector, Otis t. carr, tesla, otc1, space force, ftl, worm hole, singularity, frequency, phase, crew protection, et, and galactic federation. This team should include experts in the fields mentioned above who have a deep understanding of the principles involved in the Phoenix One Project.

2. Research and review the available literature and scientific research related to inter-dimensional travel, space propulsion, and temporal effects. This should include studying the principles involved in the Phoenix One Project, as well as other related technologies and theories.

3. Develop a comprehensive plan for the inter-dimensional space craft. This should include identifying the key requirements for the craft, such as its size, shape, power source, and propulsion system. It should also consider the crew's safety and protection from radiation, as well as the necessary life support systems.

4. Develop a prototype of the propulsion system using mercury vapor captured in a circular tube and ionized through electromagnetic induction, causing the ions to spin and create a gyroscope effect. This would require testing and fine-tuning the parameters of phase, amplitude, and frequency to induce the craft to gain altitude, fall, or change direction.

5. Build and test the inter-dimensional space craft with the prototype propulsion system. The craft should be thoroughly tested and evaluated in a controlled environment to ensure its safety and effectiveness.

6. Conduct further research and development to improve the design and efficiency of the inter-dimensional space craft's propulsion system, incorporating new technologies and scientific theories as they emerge.

7. Finally, continue to refine and develop the inter-dimensional space craft and its propulsion system, using feedback and insights from testing and scientific research to optimize its performance and capabilities.

It's worth noting that developing an inter-dimensional space craft is a highly complex and challenging task that would likely require significant resources and expertise. Therefore, it's important to approach this task with caution and diligence, seeking input and guidance from a wide range of experts and conducting rigorous testing and evaluation at every stage of the process.