Jump to content
Join the Unexplained Mysteries community today! It's free and setting up an account only takes a moment.
- Sign In or Create Account -

The Ancient Alien Theory Is True


Alphamale06

Recommended Posts

So has anyone generated any electricity from granite in their lab yet? That should be an easy Mythbusters experiment.

Yes.

Compression experiments on granite, basalt and mar- bles were made using a 500-ton compression machine with simultaneous detection of acoustic emission, elec- tromagnetic (EM) waves.

by Motoji Ikeya1, Chihiro Yamanaka1, Tomonori Mattsuda1, Hideki Sasaoka1, Hideki Ochiai1, Qinghua Huang1, Nobuyo Ohtani2, Takako Komuranani, Mitsuaki Ohta2, Yoshiteru Ohno3, and Takao Nakagawa3

Electromagnetic pulses generated by compression

of granitic rocks and animal behavior

1 Department of Earth and Space Science, Graduate School of Science, Osaka University, 1-1 Machikaneyama, Toyonaka, Osaka 560-0043, Japan. 2 Department of Veterinary Physiology, College of Agriculture, Osaka Prefectural University, 1-1 Gakuen, Sakai, Osaka, Japan.

3. Faculty of Engineering and Design, Kyoto Institute of Technology, Gosyokaidoucho, Matsugasaki, Sakyouku, Kyoto 606-8585, Japan.

4 Department of Construction Engineering, Graduate School of Engineering, Osaka University, Yamada, Suita, Osaka, 565-0871, Japan.

http://www.episodes....2-265 Ikeya.pdf

Edited by lightly
Link to comment
Share on other sites

While I can understand the confusion, EM waves are not electricity, nor are they electrical energy.

Harte

Link to comment
Share on other sites

So has anyone generated any electricity from granite in their lab yet? That should be an easy Mythbusters experiment.

Mknowles, I mentioned that Granite has that ringing. I didn't say that marble does. I think that marble, being a sedimentary rock, has more in common with limestone, than with granite. Therefore, I would guess that marble would not ring much, or at all. However, it does break very easily, if it is not supported fully from the bottom. As such, I would not expect it to be suitable for shelving on an audio rack.

As far as granite ringing, I know that 3/8" thick definitely does, and I haven't done specific tests on other thicknesses. I have read some material that referred to granite TT bases causing unwanted resonances.

http://forum.audiogon.com/cgi-bin/fr.pl?ymisc&1038059967&read&keyw&zzgranite

Looks like quite a common phenomena. References to it everywhere.

Link to comment
Share on other sites

While I can understand the confusion, EM waves are not electricity, nor are they electrical energy.

Yes, if you're not talking volts and amps, you're not talking about electricity.

Mknowles, I mentioned that Granite has that ringing. I didn't say that marble does. I think that marble, being a sedimentary rock, has more in common with limestone, than with granite. Therefore, I would guess that marble would not ring much, or at all. However, it does break very easily, if it is not supported fully from the bottom. As such, I would not expect it to be suitable for shelving on an audio rack.

As far as granite ringing, I know that 3/8" thick definitely does, and I haven't done specific tests on other thicknesses. I have read some material that referred to granite TT bases causing unwanted resonances.

http://forum.audiogo...&keyw

Looks like quite a common phenomena. References to it everywhere.

Volts + Amps = Electricity. Ringing = noise which is not electricity.

Give me x number of volts and y number of amps and z number of seconds they were produced.

Link to comment
Share on other sites

So has anyone generated any electricity from granite in their lab yet? That should be an easy Mythbusters experiment.

Nobody knows for sure exactly why the rocks ring like bells when struck with a hammer is a mystery. The rocks do contain a significant amount of iron, which might be part of the explanation. However, the high iron content doesn’t explain two other strange qualities that the rocks possess . . . Not all of the rocks ring when struck, and they don’t ring when they are removed from the site, suggesting that the ringing has something to do with the way the rocks lay against one another. Larger flat ones seem to produce an especially impressive sound when struck.

Compared to the neighbors .

The Ringing Rocks are very small part (160 acres) of a mountainous region called the Boulder Batholith, which encompasses a large portion of southwestern Montana. Batholiths originate when magma cools slowly beneath the surface to form granite.

Read more.......

http://formontana.net/ringing.html

Edited by zoser
Link to comment
Share on other sites

Yes, if you're not talking volts and amps, you're not talking about electricity.

Volts + Amps = Electricity. Ringing = noise which is not electricity.

Give me x number of volts and y number of amps and z number of seconds they were produced.

Ringing = resonance = mechanical stress = piezo = voltage = DYOR

Link to comment
Share on other sites

Yes, if you're not talking volts and amps, you're not talking about electricity.

Give me x number of volts and y number of amps and z number of seconds they were produced.

Give me patience to deal with lazy people who expect everyone else to do their work for them.

Link to comment
Share on other sites

Nobody knows for sure exactly why the rocks ring like bells when struck with a hammer is a mystery. The rocks do contain a significant amount of iron, which might be part of the explanation. However, the high iron content doesn’t explain two other strange qualities that the rocks possess . . . Not all of the rocks ring when struck, and they don’t ring when they are removed from the site, suggesting that the ringing has something to do with the way the rocks lay against one another. Larger flat ones seem to produce an especially impressive sound when struck.

What are you talking about? Sound is not electricity!

Link to comment
Share on other sites

post-135078-0-82010400-1360007872_thumb.
Link to comment
Share on other sites

Ringing = resonance = mechanical stress = piezo = voltage = DYOR

= 0 volts.

So the answer is no. Thank you.

Give me patience to deal with lazy people who expect everyone else to do their work for them.

Tell me about it. I just had to explain to you what electricity is.

  • Like 1
Link to comment
Share on other sites

What are you talking about? Sound is not electricity!

The granite in the upper chamber of the GP is partially isolated from the core masonry. The so called relieving chambers above the upper chamber comprise of immense granite beams, (70 tonnes) rough hewn not properly finished as we see in the upper chamber alluding to the idea that the beams had granite systematically removed in an attempt to tune them in the same way that metal is removed from a bell when it is tuned.

The earth has a natural vibratory frequency somewhere in the range of 8Hz. The pyramids large ground area would make the building susceptible to these vibrations which if tuning conditions were perfect would cause the granite to ring or resonate. This would be a self intensifying effect because of the special design of the grand gallery. Like a feedback or amplification effect. At the end of the grand gallery is a solid granite plug.

Resonance causes high mechanical stress. We know this from wine glasses that shatter and bridges that fracture when troops march on then in synchrony. If the resonance had a cyclic nature to it it is conceivable that the quartz inside the granite (bearing mind this is probably thousands of tonnes worth) would activate the piezo effect causing huge electrical discharges.

The interior core masonry contains magnesium and would be a partially conductive. The exterior masonry contained more calcium which would act as a partial insulator creating an electrical furnace effect. The net effect would be a huge electromagnetic radiant effect.

That in principle is the operation of the GP.

= 0 volts.

So the answer is no. Thank you.

Tell me about it. I just had to explain to you what electricity is.

Really.

Edited by zoser
Link to comment
Share on other sites

Nobody knows for sure exactly why the rocks ring like bells when struck with a hammer is a mystery. [...]

Wrong. Its covered by theory of elasticity.

Link to comment
Share on other sites

Wrong. Its covered by theory of elasticity.

Electric Arc Furnaces

Electric arc furnaces are often used in large steel foundries and steel mills. The metal is charged into the furnace, with additives to make recovery of slag easier, and heat to melt the metal is produced with an electric arc from three carbon or granite electrodes. The electric arc furnace is lined with refractories which slowly decompose and are removed with slag. Electric arc furnaces also usually employ air emissions equipment to capture most air pollution.

http://infohouse.p2ric.org/ref/01/text/00778/chapter3.htm

Wrong. Its covered by theory of elasticity.

Better let them know.

Link to comment
Share on other sites

The granite in the upper chamber of the GP is partially isolated from the core masonry. The so called relieving chambers above the upper chamber comprise of immense granite beams, (70 tonnes) rough hewn not properly finished as we see in the upper chamber alluding to the idea that the beams had granite systematically removed in an attempt to tune them in the same way that metal is removed from a bell when it is tuned...

So this is when you can't answer a question (in this case, electricity) so you change the subject to something completely unrelated.

Please post the voltage and amperage that has been produced by granite. If you can't, then stop talking about granite generating electricity.

  • Like 1
Link to comment
Share on other sites

Please post the voltage and amperage that has been produced by granite. If you can't, then stop talking about granite generating electricity.

It contains quartz. How can it not?

Just because it is not a part of modern technological practice doesn't say it's not possible.

The logistics say it is.

Edited by zoser
Link to comment
Share on other sites

Electric arc furnaces are often used in large steel foundries and steel mills. The metal is charged into the furnace, with additives to make recovery of slag easier, and heat to melt the metal is produced with an electric arc from three carbon or granite electrodes.

Yes, the external electricity is generated and applied to the electrodes. They don't generate the electricity. This is like saying a light bulb generates electricity. It consumes electricity.

You're still at zero volts, zoser.

  • Like 1
Link to comment
Share on other sites

Yes, the external electricity is generated and applied to the electrodes. They don't generate the electricity. This is like saying a light bulb generates electricity. It consumes electricity.

You're still at zero volts, zoser.

I understand that. Just another curious tie up that's all.

Nothing disproves the idea that mechanically resonating granite cannot create the piezo effect.

Edited by zoser
Link to comment
Share on other sites

It contains quartz. How can it not?

Because the quartz crystals in granite are separated by highly insulative feldspar crystals which prevent any current produced by the quartz to conduct electricity out of the material. Granite is about 80% insulative material. That's why piezoelectric devices like microphones use 100% raw quartz.

Just because it is not a part of modern technological practice doesn't say it's not possible.

The logistics say it is.

Then it would be very easy to measure the electricity generated by it, wouldn't it? You're still at zero volts.

  • Like 3
Link to comment
Share on other sites

Mknowles, I mentioned that Granite has that ringing. I didn't say that marble does. I think that marble, being a sedimentary rock, has more in common with limestone, than with granite. Therefore, I would guess that marble would not ring much, or at all. However, it does break very easily, if it is not supported fully from the bottom. As such, I would not expect it to be suitable for shelving on an audio rack.

As far as granite ringing, I know that 3/8" thick definitely does, and I haven't done specific tests on other thicknesses. I have read some material that referred to granite TT bases causing unwanted resonances.

http://forum.audiogo...&keyw

Looks like quite a common phenomena. References to it everywhere.

Couple problems with the above.

Like granite, limestone varies significantly. There's a variety called Taihu I think once prized by the Chinese for viewing stones, which was noted for it's ringing tone when struck.

In the audio sites they're also dealing with relatively thin base slabs which resonate at a higher frequency, which happens to be within the frequency range of the amps. A thicker piece wouldn't necessarily do that, so using it as an example is meaningless. As mentioned elsewhere in the thread, everything rings...if you match it's resonance frequency. But don't take my word for it. Find some granite near you and see what you get.

Nobody knows for sure exactly why the rocks ring like bells when struck with a hammer is a mystery. The rocks do contain a significant amount of iron, which might be part of the explanation. However, the high iron content doesn’t explain two other strange qualities that the rocks possess . . . Not all of the rocks ring when struck, and they don’t ring when they are removed from the site, suggesting that the ringing has something to do with the way the rocks lay against one another. Larger flat ones seem to produce an especially impressive sound when struck.

Compared to the neighbors .

The Ringing Rocks are very small part (160 acres) of a mountainous region called the Boulder Batholith, which encompasses a large portion of southwestern Montana. Batholiths originate when magma cools slowly beneath the surface to form granite.

Read more.......

http://formontana.net/ringing.html

Here again, you've managed to single out an example of granite that displays abnormal ringing compared to ordinary granite, even the same granite in close proximity. That's not helping your conclusion.

Link to comment
Share on other sites

Everything "rings" when you suspend it and beat on it.

Even soft items like clay and your butt.

This is another thing I mentioned earlier in this thread.

It's called the resonant frequency.

Harte

Link to comment
Share on other sites

Ringing = resonance = mechanical stress = piezo = voltage = DYOR

Ringing = resonance = mechanical stress and it ends there

piezo produces no voltage so DYOR

Harte

Link to comment
Share on other sites

Because the quartz crystals in granite are separated by highly insulative feldspar crystals which prevent any current produced by the quartz to conduct electricity out of the material. Granite is about 80% insulative material. That's why piezoelectric devices like microphones use 100% raw quartz.

I disagree. It depends entirely on the stresses involved which in all likelihood were monumental. This could have excited the quartz to produce immense voltages.

http://www.gizapyramid.com/chrisdunn.htm

Then it would be very easy to measure the electricity generated by it, wouldn't it? You're still at zero volts.

Here's another version of the electricity generation idea taking into account the lower chambers.

http://harunyahya.com/en/works/43656/the-secrets-hidden-in-the

Link to comment
Share on other sites

Nothing disproves the idea that mechanically resonating granite cannot create the piezo effect.

Wrong. The insulative properties of granite prevent any voltage created by that effect from being released from the material. Take an ohm meter to your granite countertop and you'll see it has infinite resistance: it does not conduct electricity. That's why you'll never get a measurable voltage out of granite no mater how hard you pound it.

Something that produces electricity must have an efficient way of conducting that electricity out of the material. Piezoelectric devices like microphones and shock sensors (often used in burglar alarms) place a conductive metal plate over a very thin layer of piezoelectric material. It has to be thin because it doesn't conduct electricity very well.

Huge blocks of granite are highly insulative to electricity.

Link to comment
Share on other sites

Wrong. The insulative properties of granite prevent any voltage created by that effect from being released from the material. Take an ohm meter to your granite countertop and you'll see it has infinite resistance: it does not conduct electricity. That's why you'll never get a measurable voltage out of granite no mater how hard you pound it.

Pounding isn't the same as sustained resonance.

Link to comment
Share on other sites

Guest
This topic is now closed to further replies.
  • Recently Browsing   0 members

    • No registered users viewing this page.