How Were the Massive Stones of Baalbek's Temple of Jupiter Moved?

  • Thread starter aquitaine
  • Start date
In summary, there is evidence that megaliths were moved using runners, lots of people, and some means of persuasion. The coefficient of friction for wet wood-wood was only 0.2, allowing each person to drag 250kg. With fish used as grease, it was possible for 20 people to drag a viking long ship across country. However, there is still some speculation and theories about how these massive stones were moved, with some suggesting the use of wooden log rollers or canoe ladders. There is also speculation that some stones were poured as we do today with concrete. In the case of viking ships, there is evidence of using fish as lubrication for transportation. As for the Baalbeck monument,
  • #36
How come I can't find the Tibetan sound stone levitation on YouTube? According to the following website, the film was to be released by 1990.

Reference: http://www.crystalinks.com/levitationtibet.html

By the way, to not bump the other thread about superhuman strength, I here briefly mention that the references for my storys there was not to remember other than old paper magazines, TV and daily news paper sources back then last century, except for the frensh fingerjumper that I'm almost sure was of a translated Readers Digest (already then old, probably from fifties or sixties). The cliffjumper and windowwasher is findable on internet.
 
Science news on Phys.org
  • #37
MrHayman said:
As to how much energy you could put in, where it would come from, wether it would decrease static and kinetic coeficient of friction and wether it would destroy the rock, I do not know how to estimate that.

That is why, as I pointed out, any rigorous derivation relating to such a claim would require a professional reference. Even if it could be shown that such a thing is possible [not saying it is] it would not be a trivial calculation. Most any trivial approach to the problem suggests that the claim is ludicrous.
 
  • #38
Some kind of sonic vibration to move a 500 ton stone?
I don't buy it.
Unless, of course, it's the vibration of 500 slaves moving that stone. Very common in that day, you know.
 
  • #39
pallidin said:
Some kind of sonic vibration to move a 500 ton stone?
I don't buy it.
Unless, of course, it's the vibration of 500 slaves moving that stone. Very common in that day, you know.

There is no evidence that the inhabitants of Easter island or the Egyptians used slaves. They had a large work force consisting of free laborers, mainly farmers, during the lapse between harvest and the next planting.
Egyptians and Easter islanders, knew that friction could be reduced by putting the stones (or statues) over sleds made with tree trunks. This is likely the reason why the natives exterminated all trees in the island (see Jared Diamond's "Collapse").
 
  • #40
CEL said:
There is no evidence that the inhabitants of Easter island or the Egyptians used slaves. They had a large work force consisting of free laborers, mainly farmers, during the lapse between harvest and the next planting.
Egyptians and Easter islanders, knew that friction could be reduced by putting the stones (or statues) over sleds made with tree trunks. This is likely the reason why the natives exterminated all trees in the island (see Jared Diamond's "Collapse").

Would it not still require massive slave labor to do this?
 
  • #41
pallidin said:
Would it not still require massive slave labor to do this?
Massive non-slave labor is easier.
Egypt didn't (largely) use slaves for the pyramids and definitely didn't for the later valley of the kings tombs.
 
  • #42
pallidin said:
Would it not still require massive slave labor to do this?

Slaves mean defeated in war. Easter island had not enough inhabitants to justify wars between different communities and was too far away from other populated island to encourage war against foreigners.
So, probably no slaves.
 
  • #43
 
Last edited by a moderator:
  • #44
here is a quote from a will hart article regarding the use of manpower to move large stones:

In fact, Lehner set up an experiment to see if it was possible to quarry, move and lift an obelisk weighing one-tenth of what the largest Egyptian obelisks weighed. It was filmed by NOVA and was an utter failure. The team's master stonemason could not quarry the 35-ton obelisk so a bulldozer was called in. They could not move it, a truck was called in. These failures represent a turning a point in the long-standing debate. Lehner actually confirmed what a Japanese team funded by Nissan had already learned in 1979, it is not possible to duplicate what the ancients did using primitive tools and methods.

Team Nissan was trying to prove something and they were very confident. But when they could not begin to excavate the blocks of stone they planned on using for their small scale-model of the Great Pyramid with ancient tools they turned to jackhammers. When they tried to ferry the blocks they quarried across the river on a primitive barge, the stones sank. When a boat got them across the river they discovered that the sledges sank in the sand. They called trucks into move the blocks to the site. Once at the site they could not manipulate the blocks into place and found, to their ultimate embarrassment, that they could not bring the four walls together into an apex despite the deployment of helicopters.
 
  • #45
There are a number of successful experiments proving that megaliths could be cut moved and oplaced using relatively small groups of people and rather quickly.

Here is one such successful experiment done on Easter Island.

The second experiment resulted in two quite successful pulls, one of 40 m and another of 70 m. Pulls were limited only by the available rail material laid out on the ground in the direction of travel and/or by rock outcroppings that impeded movement. Between pulls, the rails were repositioned. Coefficient of friction was established at 0.2, which surprised us with its low value, and about half that once sliding commenced. Sliding was greatly enhanced by lubricity of the de-barked eucalyptus.

The third experiment was conducted with the statue face down, base first on the same transport sledge. To support the head and neck, the statue was raised slightly by placing a “triple stack” of lashed logs laterally across the sledge and lashed in place at the statue’s upper torso level (Figs. 4, 5). The slight concavity in the upper torso of the moai was located at exactly the required point and the statue quite naturally accepted this lateral beam. The statue was then pulled 50 m, 30 of which were along a road-path and 20m up an 8% grade ramp to the replica platform where it was to be erected. No rollers were used on the ramp. Instead, individual “rungs” of a “canoe ladder” were spaced up the ramp then lubricated with water/banana stump liquid. The 20 m distance was covered in an astonishing 15 seconds. The statue was then positioned for the raising experiment that followed.

People, Food and Work
Computer modeling suggested that 55-70 people (or 48 average) were required to pull the average statue of 12 m tons over Path 1, and that their collective food requirement would have totaled 201,600 calories per day from agricultural staples such as sweet potatoes and bananas. Our experiment demonstrated that 40 people were fully capable of pulling a 10 m ton statue.

It is estimated that 65% of males and females between the ages of 10 and 65 are available for the average extended family “work force” in contemporary Polynesia. Our hypothesis was that males performed the actual work, while females and children provided support. In fact, however, during the experiment women made up the larger part of the pull crews, while males only were allowed by the Rapa Nui crew chiefs to perform the heavy and far more dangerous tasks of levering in proximity to the statue. The pull crews generated a great deal of excitement, camaraderie and shared purpose during the transport experiment, and this sort of community participation was certainly required and valued in prehistory, part of the euphoria of the statue cult experience.

The wood sledge served as an efficient gantry on which the pukao was neatly balanced and against which workmen levered without damaging the statue. Only 20 expert individuals were required to erect the statue over 3 days. Just as a master carver and apprentice were preferable to a large gang of workmen in the quarry, large crowds of willing workers were neither necessary nor safe while erecting a moai on image ahu. Substantial unskilled labor was required to collect, transport, stack, move and restack large rocks used during raising.

It is fair to say that our manpower estimate remains viable, with an optimum actual task involvement of 55-70 people. Our hypothesis that 5 m of ground would be covered with each discrete pull was low, and a total of 5-7 days for moving the average statue some 15 km over Path 1 is reasonable. The estimated size of the average Rapa Nui chiefdom thus remains at 8.7 extended families or 395 to 435 people. The estimated resources of approximately 50 acres of agricultural crops were required to support this effort, or double the extended family norm for East Polynesia, with supplementary marine resources required as per oral traditions.

http://www.eisp.org/544/
 
  • #46
Worth of remembering that our current attempts - no matter how educated guesses we did - are probably just a good starting point for fine tuning, which will increase the efficiency. And our ancestors were probably much better at fine tuning with whatever lied around than we are - just a matter of personal experience.
 
  • #47
Borek said:
Worth of remembering that our current attempts - no matter how educated guesses we did - are probably just a good starting point for fine tuning, which will increase the efficiency. And our ancestors were probably much better at fine tuning with whatever lied around than we are - just a matter of personal experience.
A very good point, and you don't have to go back all that far to see the evidence of that. When I was a kid, our nearest neighbor was a cabinet-maker/carpenter. He had no power in his shop, and did everything with hand-tools. If you saw some of the stuff that he made, you'd wonder how he pulled off some of it. He didn't have treadle-powered saws, lathes, drills, etc, like you see on the Yankee Workshop show. Just really simple stuff like planes, drawshaves, hand-saws, brace and bits. He had oil-stones to sharpen his tools, and a water-cooled treadle-powered rotating stone for coarse sharpening jobs, like axes.

His oldest son became a carpenter, too, but his Skil-Saws, electric drills, etc were un-welcome in the old guy's shop. He always said he'd rather take a few extra hours to build something so he wouldn't have to listen to all that racket.
 
Back
Top