Danny Jones Podcast
#240 - New Great Pyramid Theory: Evidence For Ancient Chemical Factories | Land of Chem
Episode guests
Podcast summary created with Snipd AI
Quick takeaways
- Pyramids were industrial chemical reactors producing various compounds.
- Red pyramid had chemical staining and extrusions, indicating deliberate design.
- Dashur pyramids likely produced ammonia and ammonium bicarbonate for fertilizer.
- Microspherals from lightning strikes found near the Great Pyramid, supporting power source theory.
- Ancient civilizations harnessed Telluric currents and lightning for chemical reactions in pyramids.
Deep dives
Chemical Manufacturing Theory
The Egyptian pyramids are theorized to have functioned as chemical reactors designed to produce various chemicals in series. Examples include finding a red quartzite collection bowl and conduit system in Abu Seer, suggesting production of aqueous solutions of chemicals.
Chemical Analysis Discoveries
Chemical staining inside the red pyramid of Dashur, not caused by bats, but by high temperature reactions inside the chambers. Chemical extrusions from the stone indicated processing of compounds. Samples taken show metal compounds coming out of the stone due to temperature and pressure fluctuations.
Application of Chemicals for Fertilizer Production
The pyramids in Dashur, like the red and bent pyramids, were possibly used for manufacturing chemicals, like ammonia and ammonium bicarbonate, essential for fertilizer production. The precision in construction, including flat bottoms of granite blocks in the King's chamber, suggests deliberate design for chemical manipulation and amplification of sound waves within the pyramids.
Evidence of Lightning Strikes on the Great Pyramid
Chemical analysis revealed silicate microspherals from Fulgarites near the Great Pyramid, indicating past lightning strikes. These microspherals, fossilized lightning remnants, were found near the trial passages at the pyramid's northeastern corner. The speaker's intuition about lightning being a power source for ancient structures like the Egyptian pyramids was substantiated by the chemical evidence.
Harnessing Natural Forces in Ancient Structures
The speaker delves into the Electric Universe theory, suggesting that ancient civilizations, including the Egyptians, harnessed natural phenomena like Telluric currents and lightning for their structures. These forces were seen as power sources for driving chemical reactions within the pyramids. The intricate alignments of the pyramids with planetary and lunar events hint at a sophisticated understanding of electromagnetic interactions.
Pyramids as Chemical Production Plants
The discussion unveils the pyramids' potential function as chemical production plants. The step pyramid could have been involved in methane gas production through anaerobic digestion using cattle manure. The evolution of pyramid building and precision craftsmanship may have been essential for harnessing electric fields and planetary alignments to drive chemical processes. The red pyramid's configuration mirrors modern ammonia production processes, signifying advanced understanding and use of chemical reactions by ancient civilizations.
Engineering Precision in Structure Design
The meticulous engineering of ancient structures, particularly the Great Pyramid, is highlighted. The design intricacies, such as the placement of voids above chambers for heat absorption during chemical reactions, demonstrate intentional and sophisticated engineering. The utilization of red granite for acoustic catalysis in the anti-chamber, sound vibration activation, and ultrasound chemistry within the pyramid underscores a deliberate and systematic approach to chemical processes.
Sulfuric Acid Production and Electric Field Concentration
The Great Pyramid functioned as a complex chemical processing plant, producing sulfuric acid and hydrochloric acid with interconnected chambers serving distinct purposes. The alignment of chambers, including the King's chamber, anti-chamber, and extraction shafts, facilitated chemical reactions through electric field concentration. The extraction shafts below the Queen's chamber linked to external pits, indicating a sophisticated system for chemical production and mining applications across the Giza Plateau and potentially beyond, revealing advanced metallurgical capabilities of ancient civilizations.
Ancient Chemical Reaction Sequences Depicted on Stone Glyphs at New Grange
The glyphs on the Grange curbstone illustrate an ancient chemical reaction sequence involving iron disulfide and ferrous sulfate production. The symbols represent reactants like iron disulfide stacked inside chambers, with water flowing in and airflow circulating in triple chamber systems. The depiction shows the removal of crystalline ferrous sulfate. The symbols hint at a detailed instruction manual left for future interpretation.
Harnessing Lightning for Energy and Terraforming
The podcast delves into the theory that ancient structures like the pyramids harnessed lightning to produce energy and aid in terraforming landscapes. By attracting and distributing lightning strikes through dielectric materials like limestone and black basalt, these structures could generate vast amounts of electrical energy. The discussion outlines how lightning strikes induced chemical reactions to transform calcium carbonate into useful compounds, indicating a sophisticated understanding and utilization of natural phenomena.
Learn more about your ad choices. Visit podcastchoices.com/adchoices
Remember Everything You Learn from Podcasts
