V1002 DIY Flux Gate Sensor Portion Of Teleportation Device

This video discusses the DIY construction of a teleportation unit, specifically focusing on the sensing of location coordinates. The core concept is that teleportation requires two sets of coordinates: the departure point (egress) and the destination point (entry). These coordinates are unique, like fingerprints, constantly changing, and best obtained through gravity readings.

The video introduces "flux gates" as devices used to measure these minute changes in gravity. It clarifies that these are distinct from "flux capacitors" and emphasizes that they capture a snapshot of how gravity is changing in a specific area. The presenter suggests that measuring these gravity changes creates a "fingerprint" that can be used as coordinates. Altering these coordinates allows for travel in space and even time. Changes to elements within the coordinate sets could theoretically modify the person or object being teleported.

The video further explains that measuring gravity was once considered fantasy but is now state-of-the-art, used in GPS and satellite technology. The presenter suggests buying a set of flux gate sensors instead of attempting to build them. Eight sensors are recommended to take simultaneous gravity readings from a point in space and organizing the sensors in a defined geometric array is described, using Legos for demonstration.

The teleportation unit is simplified as a flat surface with a heating pad representing the teleportation mechanism, where magnetic flux is emitted. The presenter advises populating the area around this mechanism with magnetic flux sensors. Because the sensors are very sensitive, the presenter is using eight flux gates, four at one height and four at another height, to take eight readings. This increases accuracy. These sensors measure the gravitational changes around the region of space.

Finally, the video touches upon the technology needed to compile readings from multiple sensors into a unified reading, emphasizing that pre-packaged kits are available for geological work that can be adapted for this purpose. These kits simplify the process of obtaining meaningful data for egress coordinates. The video concludes by underscoring the importance of accurate egress coordinates for successful teleportation and mentions future videos will cover massaging the data to isolate the physical body from the surrounding environment. It also briefly mentions potential dangers and rewards of teleportation, touching on the possibility of ending up in alternate "World lines" if coordinate calculations are slightly off, referencing the presenter’s experiences at China Lake.

00:01 - 00:46

The video introduces the concept of DIY teleportation unit construction, focusing on the crucial aspect of coordinate sensing. The speaker emphasizes that understanding teleportation requires grasping the need for two sets of coordinates: the departure and arrival points. These coordinates are unique, like fingerprints, constantly changing and best obtained through gravity readings.

00:51 - 02:55

The speaker explains that gravity readings are the best way to obtain coordinates, using devices called flux gates. He clarifies that these are different from the flux capacitor in "Back to the Future." Instead, flux gates measure small changes in gravity, providing a snapshot of how gravity is changing in a specific area.

02:58 - 04:44

The speaker summarizes the core concept: measuring gravity changes creates a fingerprint used as coordinates. Altering these coordinates allows for travel, including time travel and physical teleportation. Furthermore, modifying the coordinates related to the object being teleported can change the object itself, highlighting the power of this technology.

04:47 - 06:15

The speaker teases future videos that will discuss how the teleporter can be used to alter physical attributes, such as size and organ health, and even enable world line travel by changing gravitational readings. He clarifies that these readings represent changes in gravity between the departure and arrival points. He then transitions to discussing the sensing of gravity.

06:17 - 09:22

The speaker discusses the evolution of gravity measurement technology, noting that it was once considered a fantasy but is now state-of-the-art, used in GPS and satellites. He recommends using an array of eight flux gates to take simultaneous gravity readings, arranged in a specific geometric configuration for easy measurement and duplication. He uses green Legos to represent the flux gate sensors in a cardboard model.

09:26 - 12:24

The speaker uses a simplified model with green Legos to represent flux gate sensors around a teleportation unit. He describes a flat surface with a heating pad representing the teleportation mechanism, where magnetic flux is emitted. He emphasizes the importance of magnetic flux sensors, which can be purchased online, and their placement around the flux generation mechanism.

12:25 - 13:40

The speaker explains that the sensors measure the changing magnetic flux, even detecting a person's heartbeat. He notes that the sensitivity of these devices can be both an advantage and a disadvantage, as mistakes can be amplified. He describes an array of eight sensors at different heights to measure gravitational changes around the region of space.

13:45 - 16:02

The speaker emphasizes the increased accuracy gained by using multiple sensors, clarifying that the Legos are for illustrative purposes and actual flux gate sensors are small and should all be the same brand. He reiterates the importance of placing the eight sensors in a defined geometric location for ease of measurement, capturing gravitational readings as someone enters the teleporter. He defers the explanation of how to use the gravitational readings to subsequent videos.

16:02 - 18:51

The speaker explains that the technology to compile readings from eight sensors into a unified reading is available in pre-packaged kits used in geological work. He shows an example of such a kit, which takes input from the sensors and provides meaningful data for determining egress coordinates. This simplifies the process, avoiding the need to create a flux gate sensor from scratch.

18:51 - 21:23

The speaker briefly mentions his past experience with prototyping flux gate sensors and then returns to discussing the specifications of commercially available flux gate sensors. He suggests using a minimum of eight flux gates arranged on a cone around the egress portal, with two height levels for the sensors. He describes how to create a physical structure with poles to hold the sensors at the correct locations.

21:27 - 23:03

The speaker details the physical setup of the flux gates, emphasizing equal distance between sensors. He suggests using poles to create a circular outline around the egress portal, with four poles at two feet high and four at five feet high. He summarizes the video's key takeaways: how to measure egress coordinates, the technology used, where to obtain it, and how to collect and compile the data.

23:07 - 25:08

The speaker emphasizes the importance of a fixed sensor configuration as a standard, similar to using English or metric units. He stresses that the chosen configuration should be consistently used. He concludes by stating that egress coordinates are fundamental to teleportation and that accurate measurements, achieved with more sensors, are crucial.

25:09 - 26:16

The speaker reiterates the importance of accurate egress coordinates for defining destination coordinates. He notes that the raw data from the sensors is meaningless without a program to interpret it, which will be covered in the next DIY segment. He assures viewers that the necessary technology is readily available and that they don't need advanced knowledge to use it.

26:18 - 27:50

The speaker expresses hope that the information is helpful for those building a DIY teleportation unit, acknowledging both the rewards and dangers involved. He notes that the process is surprisingly forgiving, explaining that rounding off decimal figures can lead to ending up in nearby, slightly altered world lines. He shares his personal experiences at China Lake, where he encountered similar phenomena.

27:50 - 29:55

The speaker continues sharing his experiences with altered realities, such as encountering people speaking different languages. He explains that memories remain consistent because they are stored in the cloud, while physical changes and environments may vary. He describes scenarios where one might find themselves in a world with different languages, clothes, or even a different spouse.

29:58 - 31:30

The speaker outlines the next step: isolating the physical body from the environment being measured by the sensors. He explains that the sensors measure all gravitational fluxes, so software is needed to isolate the individual's gravitational signature. He concludes by expressing hope that the video was informative and encouraging viewers to pursue their projects with confidence.