#1
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Blow Up The Moon!
HVAC Be intersting to figure out how much moon's gravity adds to
Earth's surface heat. Bert |
#2
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Blow Up The Moon!
"G=EMC^2 Glazier" wrote in message ... HVAC Be intersting to figure out how much moon's gravity adds to Earth's surface heat. Bert The calculations become to chaotic to figure. Overall, not much. |
#3
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Blow Up The Moon!
"HVAC" wrote in message ... "G=EMC^2 Glazier" wrote in message ... HVAC Be intersting to figure out how much moon's gravity adds to Earth's surface heat. Bert The calculations become to chaotic to figure. Overall, not much. Like, um...zero? |
#4
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Blow Up The Moon!
Nightcrawler wrote:
"HVAC" wrote in message ... "G=EMC^2 Glazier" wrote in message ... HVAC Be intersting to figure out how much moon's gravity adds to Earth's surface heat. Bert The calculations become to chaotic to figure. Overall, not much. Like, um...zero? Calculate the energy in the tides (not zero), but indeed not much on a global scale. |
#5
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Blow Up The Moon!
Night Never zero Moon moves the oceans. That has to take great
energy,and all energy ends up as heat. Bert |
#6
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Blow Up The Moon!
On Oct 12, 7:17*pm, (G=EMC^2 Glazier) wrote:
Night *Never zero *Moon moves the oceans. That has to take great energy,and all energy ends up as heat. Bert Absolutely correct, and 2e20 N/s only amounts to 55.5e12 kwhr if all that tidal force that's continually in motion were converted to heat. That Selene/moon actually moves and morphs the entire physical planet, including its crust and its highly fluid innards. ~ BG |
#7
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Blow Up The Moon!
On Oct 12, 2:30*pm, Sjouke Burry
wrote: Nightcrawler wrote: "HVAC" wrote in ... "G=EMC^2 Glazier" wrote in ... HVAC *Be intersting to figure out how much moon's gravity adds to Earth's surface heat. Bert The calculations become to chaotic to figure. Overall, not much. Like, um...zero? Calculate the energy in the tides (not zero), but indeed not much on a global scale. 2e20 N/sec. (55.5e12 kw.hr) is not much on a global scale. ~ BG |
#8
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Blow Up The Moon!
"Sjouke Burry" wrote in message ... Calculate the energy in the tides (not zero), but indeed not much on a global scale. The question was about surface heat, not how or if the moon adds energy to the earth. |
#9
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Blow Up The Moon!
On Oct 12, 10:11*pm, "Nightcrawler" wrote:
"Sjouke Burry" wrote in . nl... Calculate the energy in the tides (not zero), but indeed not much on a global scale. The question was about surface heat, not how or if the moon adds energy to the earth. Adding energy to Earth's fluid core, semi-solid crust and oceans can't but help transfer that tidal influx of Newtonian force, as per heating the surface and atmosphere. ~ BG |
#10
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Blow Up The Moon!
"Nightcrawler" wrote in message ... "HVAC" wrote in message ... "G=EMC^2 Glazier" wrote in message ... HVAC Be intersting to figure out how much moon's gravity adds to Earth's surface heat. Bert The calculations become to chaotic to figure. Overall, not much. Like, um...zero? No. Not zero. Not if you add the tectonic heating. |
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