![]() The big drums were made of 1mm thick sheet iron, and had a weight of 150kg. The big drums and all the trumpets were fixed on mounts which could be adjusted with staffs in the direction of the slab of stone. All the trumpets were the same size. They had a length of 3.12 meters and an opening of 0.3 meters. The only small drum had a cross-section of 0.2 meters and a length of 0.3 meters. Four drums were medium size with a cross-section of 0.7 meter and a length of one meter. The musical instruments consisted of 13 drums and 6 trumpets (Ragdons).Įight drums had a cross-section of one meter, and a length of one and one half meters. The radius of 63 meters was measured out accurately. Then 19 musical instruments were set in an arc of 90 degrees at a distance of 63 meters from the stone slab. The block was one meter wide and one and one half meters long. A block of stone was maneuvered into this cavity by Yak oxen. The bowl had a diameter of one meter and a depth of 15 centimeters. “ In the middle of the meadow, about 250 meters from the cliff, was a polished slab of rock with a bowl like cavity in the center. Jarl, had while staying at a Tibetan monastery in the 1930’s. Kjellson recounts the experience his friend, a Dr. I found an interesting account of sound levitation in the book The Lost Technique by Swedish civil engineer, Henry Kjellson. Did they have some advanced form of sound levitation to move thousand ton stones-a task that present day builders admit would be difficult even with the use of modern cranes? Yet, history suggests the Ancient Egyptians might have already cracked this secret in their building of the pyramids and other megalithic monuments. Unfortunately, science has still not been able to figure out how to levitate larger heavier objects. Some standing waves are kept in constant position, serving as a suspending force, while other waves are used to support a floating object within the standing waves (see VIDEO below). They used an array of four audio speakers, generating inaudible high frequencies sound waves that intersect inside a confined space. The crossover of these intersecting waves creates “standing” waves. In 2014 a Japanese team of scientists from the University of Tokyo used sound to levitate objects as big as a small screw in mid-air, moving them not just up and down but also to-and-fro and side-to-side. With that finding, the potential for sound-based technology became even more apparent. But in 2007 a team of US physicists discovered that “ superluminal acoustic sound waves” can actually out-perform light in speed and velocity under certain conditions. Einstein thought nothing was faster than the speed of light. The mysteries and numerous capabilities of sound have intrigued mankind for millenniums.
0 Comments
Leave a Reply. |