The Random Discussion / Argument Thread

[Dr.Clones]

Totally agree if religion disappeared. We would be better off as a whole and our civilisation would prosper with Scientific advances and everyone can work to the same common goal of bettering Society

if you look up the top scientists of the world none of them believe in God none of them are Muslims

 

[Billygoat]

Totally agree if religion disappeared. We would be better off as a whole and our civilisation would prosper with Scientific advances and everyone can work to the same common goal of bettering Society

if you look up the top scientists of the world none of them believe in God none of them are Muslims

Didn’t need those last 5 words.

 

[Dr.Clones]

I was just trying to be diverse and inclusive my bad

 

[Dr.Clones]

Just like France

https://twitter.com/x/status/1868343853184655623

 

[Green Genius]

if you look up the top scientists of the world none of them believe in God

Smartest living man today is a Trumper who believes in God. A lot of phd level physicists believe in a higher power.

 

[Green Genius]

 

[Green Genius]

Now that the Electric Universe Theory is gaining understanding, it lends credence to the theory that is universe itself is god/reality, and we are merely perceiving it.

 

[med180]

Now that the Electric Universe Theory is gaining understanding, it lends credence to the theory that is universe itself is god/reality, and we are merely perceiving it.

There are definitely some interesting theories about, but they're in a league of they're own when compared to the archaic violent abrahamaic religions!

 

[Dr.Clones]

Start watching from 11 minutes and 20 seconds only 7% of elite scientist, believe I’m talking elite, not shit kickers

 

[Dr.Clones]

 

[Green Genius]

Tyson is bottom feeding grub who believes men can turn into women if they pretend hard enough. He was lead in 5 unremarkable papers in the 90s and is good at counting stars. Is is smarter than me? Sure is. Is Chris Langan the God believing Trumper smarter than Neil, yes by, several SD's

 

[Green Genius]

In fact Langan's IQ is so much greater relative to Neil's, that there's no relative gap between Neil and normal people.

TLDR= NdGT is a stupid person's idea of a genius

 

[Dr.Clones]

Off topic I found this

 

[Dr.Clones]

The document you've provided appears to be a patent (US 2006/0145019 A1) related to the design and operation of a spacecraft with a triangular hull. Here's a summary of the key points discussed in the document:

### Brief Summary of the Invention:
- **Concept**: A spacecraft with a triangular hull that uses electromagnetic fields for propulsion.
- **Hull Design**: The hull has a triangular cross-section with antennas along its edges. The spacecraft is propelled by creating electromagnetic forces.

### Background of the Invention:
- **Hull Structure**: The hull is triangular with three sides, each functioning as an electromagnetic field source.
- **Electromagnetic Fields**: The spacecraft uses electromagnetic fields to move, with each side of the hull acting as a plate of a capacitor or inductor.

### Technical Details:
- **Equations**: The document includes mathematical equations describing the potential and field distribution:
- Laplace's Equation: Describes the potential distribution.
- Surface Charge Density: Determines the electric field components.

### Figures:
- **FIG. 1**: Illustrates the spacecraft hull with electromagnetic fields.
- **FIG. 2**: Shows the triangular spacecraft with electromagnetic properties.
- **FIG. 3**: Depicts the electromagnetic field around the hull.
- **FIG. 4**: Illustrates the interaction of two charged plates.
- **FIG. 5**: Shows the perspective view of the corner angle for equal potential.

### Summary of the Invention:
- **Propulsion Method**: By controlling the electromagnetic fields, the spacecraft can move in different directions. The interaction of these fields can create propulsion forces.

### Brief Description of the Drawings:
- **FIG. 1**: Overview of the spacecraft design.
- **FIG. 2**: Detailed view of the interaction of charged plates.
- **FIG. 3**: Calculation of charge density at the corner.
- **FIG. 4**: Example of a 3D view of forces in a triangular hull.
- **FIG. 5**: Perspective view of the triangular spacecraft.

This patent seems to focus on using electromagnetic principles for spacecraft propulsion, leveraging the geometry of a triangular hull to achieve this. The detailed mathematical and physical analysis in the document supports the theoretical basis for this innovative propulsion method.

 

[Dr.Clones]

The image you provided is **Figure 7** from the patent application US 2006/0145019 A1. Here's a breakdown of the figure and its context:

### Figure 7:
- **Description**: This figure illustrates the electric field distribution around a corner of a triangular spacecraft hull.
- **Key Elements**:
- **Lambda (λ)**: Represents the linear charge density.
- **3λ/4**: Indicates the charge density distribution at the corner of the hull.
- **λ/2**: Indicates the charge density distribution along the sides of the hull.

### Context from the Patent:
- **Triangular Hull**: The spacecraft has a triangular hull with electromagnetic properties.
- **Electromagnetic Fields**: The hull's corners and sides are designed to create specific electromagnetic fields for propulsion.
- **Charge Distribution**: The figure shows how the charge is distributed around the corner of the hull, which is crucial for the electromagnetic propulsion mechanism described in the patent.

### Technical Details:
- **Potential and Field Distribution**: The document discusses how the potential and electric field are influenced by the charge distribution:
- **Laplace's Equation**: Used to describe the potential distribution.
- **Surface Charge Density**: Determines the electric field components.

### Interpretation:
- **Charge Density at the Corner**: The charge density at the corner is higher (3λ/4) compared to the sides (λ/2), which influences the electromagnetic field and thus the propulsion forces.
- **Electromagnetic Propulsion**: By manipulating the electromagnetic fields around the hull, the spacecraft can control its direction and speed, leveraging the principles illustrated in Figure 7.

This figure is part of a broader explanation of how the triangular spacecraft uses electromagnetic fields for propulsion, focusing on the interaction of charges at the hull's corners to achieve the desired movement.

 

[Dr.Clones]

The text in the image provides a detailed description of the electromagnetic field distribution and its applications in the context of a triangular spacecraft. Here's a summary of the key points:

### Detailed Description of the Drawings:
- **Figure 7**: This figure shows the potential distribution around the corner of the triangular hull.
- **Figure 8**: Illustrates the interaction of two charged plates in the electric field.
- **Figure 9**: Depicts the calculation of charge density at the corner of the hull.
- **Figure 10**: Shows the perspective view of the corner angle β for the triangular hull.

### Summary of the Invention:
- **Triangular Hull**: The spacecraft has a triangular hull with electromagnetic properties.
- **Charged Plates**: Two flat plates are charged to a potential to generate electromagnetic fields.
- **Corner Singularity**: The interaction of these fields at the corner of the hull creates a high charge density, which is crucial for propulsion.
- **Electromagnetic Propulsion**: By controlling the electromagnetic fields, the spacecraft can achieve lift and propulsion.

### Detailed Description of the Invention:
- **Figure 10**: A perspective view of the triangular spacecraft with a rectangular horizontal flat sheet at the back, a copper sheet at the front, and a dielectric flat sheet at the top.
- **Components**:
- **Horizontal Antenna Array**: For generating electromagnetic fields.
- **Coaxial Cables**: For driving the antenna array.
- **Dielectric Sheet**: To create an electric field in interaction with the copper sheet.
- **Magnetic Field Generator**: To produce a magnetic field for propulsion.

### Electromagnetic Field and Propulsion:
- **Electric Field Components**: The electric field components are described in terms of their coefficients, which vary with the line length squared.
- **Stress Components**: The stresses \( T^{xx} \), \( T^{xy} \), and \( T^{yy} \) are plotted, showing how the electromagnetic fields contribute to the spacecraft's movement.

### Visual Representation:
- **Figure 10**: Shows the interaction of electromagnetic fields and the physical components involved in generating these fields for propulsion.

This part of the patent emphasizes the use of electromagnetic fields for propulsion, focusing on the interaction between charged plates and the resulting electromagnetic effects at the hull's corners. The detailed diagrams and descriptions provide a clear understanding of how the invention leverages electromagnetic principles for spacecraft movement.

 

[Dr.Clones]

The triangular spacecraft described in the patent uses electromagnetic principles for propulsion. Here's a breakdown of how it works:

### Basic Concept:
- **Triangular Hull**: The spacecraft has a triangular hull with electromagnetic properties.
- **Electromagnetic Fields**: By manipulating electromagnetic fields around the hull, the spacecraft can control its direction and speed.

### Components:

1. **Horizontal Antenna Array**: Mounted on the sides of the hull to generate electromagnetic fields.
2. **Coaxial Cables**: Used to drive the antenna array.
3. **Dielectric Sheet**: Positioned to create an electric field in interaction with a copper sheet.
4. **Magnetic Field Generator**: Produces a magnetic field for propulsion.
5. **Copper-Cladded Corners**: Charged to different potentials to create a high charge density singularity at the corners.

### Working Mechanism:

1. **Charge Distribution**:
- The hull's corners and sides are designed to have specific charge distributions. For example, the corners have a higher charge density (3λ/4) compared to the sides (λ/2).

2. **Electromagnetic Field Generation**:
- The horizontal antenna array generates electromagnetic waves.
- The dielectric sheet and copper sheet interact to create an electric field.
- The magnetic field generator produces a magnetic field.

3. **Propulsion**:
- **Electric Field**: The interaction between the charged plates and the dielectric sheet creates a strong electric field around the hull.
- **Magnetic Field**: The magnetic field generator creates a magnetic field that interacts with the electric field.
- **Lorentz Force**: The combination of electric and magnetic fields generates a Lorentz force, which is used for propulsion.

4. **Lift Generation**:
- By controlling the charge density and the interaction of the electromagnetic fields, the spacecraft can generate lift. This lift is achieved by creating a high-pressure area under the hull and a low-pressure area above it.

5. **Directional Control**:
- The direction of the spacecraft can be controlled by varying the electromagnetic field distribution around the hull. This involves adjusting the charge on the plates and the orientation of the magnetic field.

### Key Equations and Concepts:

- **Laplace's Equation**: Used to describe the potential distribution around the hull.
- **Surface Charge Density**: Determines the electric field components, which are crucial for propulsion.
- **Stress Components**: The stresses \( T^{xx} \), \( T^{xy} \), and \( T^{yy} \) represent the forces acting on the hull due to the electromagnetic fields.

### Visual Representation:

- **Figures**: The diagrams in the patent (e.g., Figure 10) illustrate the setup of the electromagnetic components and their interactions, providing a visual aid to understanding the propulsion mechanism.

### Summary:
The triangular spacecraft leverages the principles of electromagnetism to achieve propulsion. By carefully designing the hull and its electromagnetic field distribution, the spacecraft can generate the necessary forces for movement and control its direction. This innovative approach aims to provide a new method for spacecraft propulsion, potentially offering advantages in terms of efficiency and maneuverability.

 

[Dr.Clones]

If you put those pics in ai it will tell you how it works and that its real

grok Can decipher equations in pictures not sure about chat GPT

 

[SAW]

Me standing over a rabbit hole

Hello?
Hello?

Me to TSE forum.

Jesus I’m worried about Dr Clones. He’s really deep down this one. His posts are more disheveled than usual. Call for help.

All good Dr. I get worried about my mercurial brain flipping randomly between unrelated topics. Must be your trigger.

PS Re smart.
We’re all smart and brilliant in some tiny aspect of our glorious lives. Measuring by maths, writing etc really limits your horizons.

No offence intended, all just a giggle.

 

[Dr.Clones]

Me standing over a rabbit hole

Hello?
Hello?

Me to TSE forum.

Jesus I’m worried about Dr Clones. He’s really deep down this one. His posts are more disheveled than usual. Call for help.

All good Dr. I get worried about my mercurial brain flipping randomly between unrelated topics. Must be your trigger.

PS Re smart.
We’re all smart and brilliant in some tiny aspect of our glorious lives. Measuring by maths, writing etc really limits your horizons.

No offence intended, all just a giggle.

Soon as I jumped on X the hole just got bigger and bigger I can’t escape it now