Logo

Self-Proclaimed Leader in Apocalypse Technology, Elon Musk Needs Far UVC Light To Win War On Flu

https://www.youtube.com/watch?v=4WDvx-NkTjo  

Elon Musk to Conquer Flu and Future Pandemics with Far-UVC Light Technology

1. Introduction

Elon Musk, the self-proclaimed leader in apocalypse technology, needs to focus on Far-UVC light to win the war on flu and future pandemics. To colonize Mars, Musk must first master the 23nm band of light between 207nm-230nm, ensuring that Earth-born viruses don’t jeopardize his interplanetary ambitions. Quanta X Technology offers a solution: UVGi-Fi.

2. Upgrading to Far-UVC Communications (UVGi-Fi)

By increasing the photon energy of current Li-Fi technology to 5.55eV for 223.3nm Far-UVC communications or UVGi-Fi, Mars can be protected from airborne bio-hazards while boasting the fastest Wi-Fi in the universe. This upgrade will help control airborne germs, making Mars colonization safer and more sustainable.

3. Learning from History: Preventing Mass Extinctions

Musk must learn from history and take measures to prevent a mass extinction event on Mars caused by Earth-born viruses. The first mass extinction on Mars could mirror how smallpox devastated the Aztecs, helping Spain conquer the Americas 500 years ago. To avoid this fate, Starlink needs a significant upgrade to Far-UV light-based interlinks (UVGi-Fi) for Mars colonies.

4. Far-UVC Photons: Powerful Germ Control

Far-UVC photons offer a more powerful and safe way to control germs compared to flowing water. Utilizing Far-UVC light in UVGi-Fi technology will enable more effective germ control and pandemic prevention in future Mars colonies.

5. Implementing 7G Wireless Technology: UVGi-Fi

By implementing UVGi-Fi, Musk will be at the forefront of anti-apocalypse technology, safeguarding Mars from potential pandemics. 7G wireless technology will offer faster communication and better germ control, making Mars colonization a more viable prospect.

6. Changing Other Worlds Starts on Earth

Musk must first conquer the microscopic world with UVGi-Fi to dominate the heavens. By investing in Far-UVC light technology, he will not only make Mars colonization safer but also impact Earth’s future positively.

7. A Future with Interplanetary Migration Patterns

With the successful implementation of UVGi-Fi, Earth might become a nesting ground for interplanetary species in the distant future. By mastering Far-UVC light technology, Musk will pave the way for humanity to explore and inhabit other worlds without the fear of pandemics.

Frequently Asked Questions (FAQs)

  1. What is Far-UVC light? Far-UVC light is a specific spectrum of ultraviolet light with germicidal properties, which can be used to control airborne pathogens without harming humans.

  2. What is UVGi-Fi? UVGi-Fi is an upgraded form of Li-Fi technology that uses Far-UVC light for data transmission, offering faster communication rates and germicidal properties.

  3. How can UVGi-Fi technology help in colonizing Mars? UVGi-Fi technology can protect Mars colonies from airborne bio-hazards and provide faster communication, making Mars colonization more sustainable and safer.

  4. Why is it essential to learn from history when colonizing other worlds? Learning from history helps prevent the same mistakes and catastrophes from occurring, such as mass extinction events caused by Earth-born viruses. By understanding these lessons, Mars colonization can be better prepared and protected.

https://www.nature.com/articles/s4137…
 
Known 23nm AP-UVGI/UVGi-Fi Window: Wavelengths 207nm – 230nm || Electron-volts 5.99 eV – 5.39 eV || Frequency Zone 1,448,272.7 GHz – 1,303,445.5 GHz || Frequency Gap 144,827.2 GHz || 144.8 THz || 0.1448 PHz
 
Current Bluetooth Wavelength 12.5 cm || 0.000009925597292486 eV || 2,398.339664 MHz || 2.4 GHz || 0.0024 THz || 0.0000024 PHz, which is 9.9 millionths of an electron volt
 
Current Li-Fi: 380nm || 3.26eV || 788927521.052632 MHz || 788927.5 GHz || 788.93 THz || 0.79 PHz
 
Future UVGI-FI: 222nm || 5.58eV || 1,350,416,477.47748 MHz || 1350416.5 GHz || 1,350.4 THz || 1.3504 PHz
 

By increasing the Li-Fi light frequency of 380nm Li-Fi by 561.5 THz, innovators like Elon Musk can pave the way for cutting-edge UVGi-Fi technology. By harnessing the power of Far-UVC light, the future of interplanetary communication and germ control will be revolutionized. With UVGi-Fi at the core of IoT, visionaries like Musk can lead the charge in anti-apocalypse technology, ensuring the safety and wellbeing of future Martian colonizers.

If visionaries like Tesla had access to this knowledge, there is no doubt they would have pursued the potential of light-based technology. By following in their footsteps and embracing the possibilities of UVGi-Fi and 7G wireless technology, humanity can stay in tune with the natural world and our ever-evolving technological landscape. To change other worlds, we must start on Earth and conquer the microscopic realm with UVGi-Fi.

A thousand years from now, Earth could be a place where interplanetary beings return to give birth, having established migration patterns across the cosmos. By mastering UVGi-Fi technology, humanity will be equipped to explore and conquer the heavens, all the while ensuring the safety of our home planet and future colonies. The key to dominating the universe lies in our ability to control the microscopic world, and the potential of UVGi-Fi is the first step in that journey.

 
Wavelengths & Frequency of Common UVC and Far-UVC Endpoints Wavelength (nm) Electron-volt (eV) Megahertz (MHz) Gigahertz (GHz) Terahertz (THz ) Petahertz (PHz)
 
Far-UVC 200nm || 6.19 eV || 1,498,962,290 MHz || 1,498,962.3 GHz || 1,499 THz || 1.499 PHz
Far-UVC 207nm || 5.99 eV || 1,448,272,743.96135 MHz || 1,448,272.7 GHz || 1,448.3 THz || 1.4483 PHz
Far-UVC 222nm || 5.58 eV || 1,350,416,477.47748 MHz || 1,350,416.5 GHz || 1,350.4 THz || 1.3504 PHz
Far-UVC 230nm || 5.39 eV || 1,303,445,469.56522 MHz || 1,303,445.5 GHz || 1,303.5 THz || 1.3035 PHz
UVC 253.7nm || 4.89 eV || 1,181,680,953.88254 MHz || 1,181,680.9 GHz || 1,181.7 THz || 1.18 PHz
UVC 280nm || 4.43eV || 1,070,687,350 MHz || 1,070,687.35 GHz || 1,070.7 THz || 1.07 PHz