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Is the Earth Gaining Or Losing Mass?
Hugh Pickens writes writes "BBC recently asked physicist and Cambridge University professor Dave Ansell to draw up a balance sheet of the mass that's coming in to the earth, and the mass going out to find out if the earth is gaining or losing mass. By far the biggest contributor to the world's mass is the 40,000 tonnes of dust that is falling from space to Earth every year. 'The Earth is acting like a giant vacuum cleaner powered by gravity in space, pulling in particles of dust,' says Dr. Chris Smith. Another factor increasing the earth's mass is global warming which adds about 160 tonnes a year because as the temperature of the Earth goes up, energy is added to the system, so the mass must go up. On the minus side, at the very center of the Earth, within the inner core, there exists a sphere of uranium five mile in diameter which acts as a natural nuclear reactor so these nuclear reactions cause a loss of mass of about 16 tonnes per year." (Read more, below.)
Pickens continues: "What about launching rockets and satellites into space, like Phobos-Grunt? Smith discounts this as the mass is negligible and most of it will fall back down to Earth again anyway. But by far the biggest factor in earth's weight loss are the 95,000 tonnes of hydrogen that escape from the atmosphere every year. 'The other very light gas this is happening to is helium and there is much less of that around, so it's about 1,600 tonnes a year of helium that we lose.' Taking all the factors into account, Smith reckons the Earth is getting about 50,000 tonnes lighter a year, which is just less than half the gross weight of the Costa Concordia, the Italian cruise liner that recently ran aground."
It would have given me a nice excuse the next time my wife noticed I had gained weight. "It's not the junk food, honey. The earth is gaining mass and causing me to weigh more!!!"
SJW: Someone who has run out of real oppression, and has to fake it.
IF one assumes AGW the mass of heating the crust and atmosphere of the earth a tiny fraction of a degree per year isn't going to give tons either. Math people, try it sometime. It works a lot better than your hokey religion.
And neither match a good blaster by your side.
Math people, try it sometime. It works a lot better than your hokey religion.
Don't try to frighten us with your sorcerous ways, Lord jmorris42. Your sad devotion to that ancient math has not helped you conjure up the stolen data tapes, or given you enough clairvoyance to find the rebels' hidden fortress...
Some models do have some kind of nuclear-reactor thing going on at the very center, but it's indeed not right to present it as some kind of fact, when it's greatly disputed what might be there (and our evidence is very circumstantial). As far as I can trace it, the proposal for a "nuclear georeactor" in a sub-core of the inner core is due to J.M. Herndon, who proposed it in 1996, and has since developed the idea in various other papers. I don't think it's anywhere near consensus, though.
10 PRINT CHR$(205.5+RND(1)); : GOTO 10
And here some people are worried about running out of uranium.
We'll never use up a 5-mile diameter sphere of uranium!
The problem is getting to it.
I mean if you believe "science" then it's surrounded by molten rock.
And if you believe the book journey to the center of the earth, then its surrounded by dinosaurs.
Both I understand are fatal to humans.
Ah, so the earth isn't retaining an increasing amount of heat? What evidence do you base this assertion on?
Spread throughout the whole of the Earth, combined with how much we're incapable of utilizing, that totally doesn't surprise me. Consider how much energy from the Sun hits the Earth every year that all just goes to waste, let alone what is reflected or shines off in other directions.
I think only a reactionary, kneejerk idiot would make this kind of ridiculously wrong statement.
It'd help your argument if you had something more than a tenuous grasp on thermodynamics and the processes involved with the retention of heat. Also, do consider that when working with the masses of planets and the energy output of stars, 160 tons is so easy to come across that, yes, it is highly like that this is in fact the case. Funny, though, how you get so violently worked up over it.
So now burning (hint, just a chemical action) some dead dinosaur is releasing the energy equivilent of 160 TONNES? Eh?
No. Burning is mass-neutral. Not only is it chemical, as you point out, but the energy released during burning is still in Earth, so by mass-energy-conservation, the total mass of the Earth is unchanged.
It's the increasing average temperature of the Earth that causes the increase in mass. That temperature increase is not energy released from burning fuel, but rather additional energy captured from solar radiation (as a result of increased atmospheric CO2). So ultimately all the additional mass is coming from solar radiation.
160 tons of mass ~= 10^22 J
Solar irradiance over the surface of the Earth ~= 10^17 W ~= 10^24 J/yr
Math people, try it sometime.
I see that you didn't take your own advice. I see no math in your post whatsoever, despite the fact that 1 kg of mass in energy is easy to compute and the total energy used by civilization has been estimated before.
IF one assumes AGW the mass of heating the crust and atmosphere of the earth a tiny fraction of a degree per year isn't going to give tons either.
See, here math would have been useful.
But Americans are attempting to even things out.
So you count the 16 tonnes a year from a nuclear reaction that may or may not be there, but you ignore the effects of space rockets, some of which have payloads in the hundreds of metric tonnes? (the Saturn V can carry 45 tonnes to a Lunar Injection orbit and over twice that to LEO.) Huh, interesting.
Also, what is this about the weight of the Costa Concordia? I want to know how many Libraries of Congress that is per year, damnit.
"None can love freedom heartily, but good men; the rest love not freedom, but license." --John Milton
There's no evidence of a georeactor in the Earth's core. We know this by measuring the abundance of geoneutrinos - neutrinos generated by radioactive decay and nuclear fission. The KamLAND, Japan and Borexino, Italy discovered a ~50% deficit in geoneutrinos i.e. 22 of 44 TerraWatts of heat comes from radioactive decay. The rest is primordial, left over from the Earth's cataclysmic formation. If there was a georeactor there would have been an anomalous abundance in geoneutrinos (KamLAND detected fission neutrinos from nearby Japanese nuclear reactors).
The hypothesis of a georeactor, powered by a 16km diameter sphere of Uranium, was put forward by maverick scientist J. Marvin Herndon. He also believes the Earth is expanding and he rejects plate tectonics. Despite that, mainstream science did not ignore him but enthusiastically tested this georeactor theory.
Gando, A. et al., 2011. Partial radiogenic heat model for Earth revealed by geoneutrino measurements. Nature Geoscience 4(9), 647-651.
It takes over 4 Joules of energy to raise the temperature of 1 gram of water by 1 degree Celsius. Your 22,964.4 Joule figure would be sufficient raise the temperature of 5.5 liters of water by 1 degree C.
The earth's mass is slightly larger than 5.5 liters of water and thus requires slightly more energy to raise its temperature by one degree.
Try again
Dude, your math is WAY off. How'd you go from mass to required energy without determining the specific heat of the earth?
Here, let me calculate the energy required to heat just the iron content of the earth (34.6% by mass) by 1 C: 9.278* 10^26 J, which is equivalent to 1.037 & 10^7 metric tonnes.
You are off by a LOT of decimal places. A mere 23kJ should have immediately tipped you off as not passing the smell test. That's less than 1/1000th of the energy released by burning 1 liter of gasoline!
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Adding energy increases mass, you normally dont notice it because c^2 is pretty big.