Blinking Universe: 30 Technical Papers on Theory & Applications by Richard Lighthouse - HTML preview

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12. Terraforming the Atmosphere of Venus

 

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Richard Lighthouse

 

Terraforming the Atmosphere of Venus

 

 

Creative Commons 4.0 International License; 2020 by Richard Lighthouse. 

CC BY 4.0

Please acknowledge source.   RLighthouse.com

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ISBN: 9781370789139

 

 

Original 1A – 13 November 2016

Houston, Texas, U.S.A.

Revision 2D – 7 March 2019

 

WARNING:  The NSA has likely placed electronic tracking tags in this document.  Please consider printing for distribution.

 

 

Terraforming the Atmosphere of Venus

 

 

 

Abstract

 

 

The atmosphere of Venus is 96% carbon dioxide, with low water and oxygen content.  This short technical paper addresses altering the atmosphere for human habitation.  The technology to perform this already exists.  It was used on the World Trade Center on 9-11-2001 (reference DrJudyWood.com)  The infrared lasers used to destroy the buildings is a type of rapid-aging technology.  This same technology can be used to rapidly-age carbon dioxide molecules, and break them down into oxygen.  This technology is combined with using one or more of the resonant frequencies of carbon dioxide to accelerate its breakdown.  It should be noted these unique infrared lasers are far more powerful than ordinary lasers.  Many of these lighter molecules will escape the atmosphere, reducing the atmospheric pressure at ground level.  The first recommendation of this paper is to launch a satellite into Venus' orbit and begin performance tests to determine how many satellites would be required to sufficiently alter the atmosphere within a reasonable period of 20 years.  To reduce the launch costs, it is recommended to use t\he technique for orbital insertion described in a prior ebook, “The Use of Time-Forwarding to Place Satellites in Orbit.”  This same technique might also be used to place the satellite closer to the orbital distance of Venus, reducing the fuel requirements.  The summary conclusion is that 50 high-power, infrared lasers, operated for 20 years would substantially alter the atmosphere of Venus.  It must be emphasized, this is a very rough estimate to indicate that further research might be directed to achieve possible results.

 

 

Introduction

 

Molecular and diatomic oxygen would be produced during the break down of carbon dioxide. For discussion purposes, we will assume that the total weight of carbon in the atmosphere of Venus is approximately 10^20 kg, and the total weight of oxygen is approximately 3 x 10^20 kg.3  If we assume that the infrared laser can rapidly age 1 million tons of molecules in 8 seconds, then how many lasers and how much time is needed to bring the atmosphere to a reasonable level?  There are many assumptions we must make for a rough approximation, because there is little public information about the capabilities of this infrared laser. 

 

It must be emphasized, these are not ordinary infrared lasers.  They have unique qualities that are derived from operating at a harmonic of the the Lighthouse Frequency.  They are far more powerful, in the same way that a nuclear bomb is far more powerful than TNT.

We can estimate that the laser operates at a frequency of 256 x 1.1 THz = 282 THz, which is a strong harmonic of the Lighthouse Frequency (the blinking frequency of our universe).

 

So in kilograms, we will estimate that 113 million kilograms of molecules can be rapidly-aged per second, per laser.  We will also assume that about one-third of the molecules will be lost due to atmospheric escape and other losses, during the lasing.  This gives us about 3.5 x 10^12 seconds for one laser.  Now, let's also assume that we can scale up the laser in size to achieve a power level that is 100 times greater than was used on the World Trade Center.

 

This results in the number: About 50 infrared lasers, parked in orbit, and used for 20 years would achieve a substantial alteration of the atmosphere.  Also, we do not need to completely reduce all carbon dioxide, and we would need to account for maintenance and down-time for the lasers, etc.

 

The point being, this seems to be an achievable scenario.

 

 

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Figure 1.  Infrared Laser orbiting Venus. (not to scale)

 

This is a first step in a process of terraforming to achieve a habitable planet, but it is a significant step.  Further research is recommended.

 

 

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Figure 2.  Cycle of our blinking universe.  Rapid aging occurs at a harmonic of the E point.

 

 

Conclusions

 

 

So we have described a possible scenario using infrared lasers to alter the atmosphere of Venus.  Further research could be performed, given some additional information on the laser's capabilities.  There are numerous secondary effects of the lasers; heating, escape loss, pressure drop, etc., and other factors that would need to be considered.  Actual missions would probably require a number of additional steps before the planet could be considered habitable, but this is clearly an important first step.  If some readers object to my numbers or derivation, they are invited to develop their own. The conclusion will likely be the same – the technology is within our reach.

 

 

 

This document is a living document.  The author reserves the right to make corrections and changes.

     

 

References

 

1.  Dr Judy Wood, “Where Did the Towers Go?,”  The New Investigation; 2010.

 

2.  Richard Lighthouse, “The Use of Time-Forwarding to Place Satellites in Orbit”, 2014. smashwords.com and lulu.com

 

3.  Venus atmosphere mass obtained from wikipedia.org, November 2016: en.wikipedia.org/wiki/Terraforming_of_Venus