[trespam]

$this->bbcode_second_pass_quote('Dezakin', '
')
I know a little bit. I suspect we're closer to peak oil than the USGS believes but not as close as next year... Though I would not be shocked if we hit it within five.

One thing I do believe is that if peak oil hits tomarrow, we're all going to be substantially poorer for a little while. My argument is that it will only be for a little while, on the order of a few years to maybe a little over a decade.

[Dezakin]

trespam: $this->bbcode_second_pass_quote('', 'I') looked at the references on Uranium. There is nothing shockingly new to me there. One estimate of 50 years supply AT CURRENT RATES OF CONSUMPTION.

[Dezakin]

Oh sorry. My math was wrong with the calc. its late...

I think this is better, but no guarantees right now.

its the integral of 1.02^x between 0 and the number of years...
antiderivitive is (1.02^x)/ln(1.02) - 1/ln1.02 = 200000
1.02^x = 3962
x= log1.02(3962)

Goin to sleep.

[TrueKaiser]

if your going to talk about nuclear sustainability please do so in another thread, this one is about space travel. unless you have a idea for a rocket that uses uranium then please move the discussion elsewhere.

[Dezakin]

$this->bbcode_second_pass_quote('', 'a')nyway it made me wonder, did we blow our specie's only chance to move off this planet? or could we still go up there at a later time?

[Coolman]

Dezakin I think you need to read up on the Univeral Ecological Delema. There are to many people on the planet using to much evergy. The only was to fix it is lower world population and consume a lot less energy. Your techno fix will make the problem worse. Personally I am putting my bets on the human race will desend into choas by looking at our past. Putting you money on a techno fix is asking for trouble. If I were you I would learn about sustainability because the currently world we live in is hearding no were near your Nuclear Dream World.

[Doly]

How do you measure how many people are too many and how much energy is too much?

I think the only possible measure is: there are too many people when it isn't possible to feed mankind and maintain a sustainable ecology at the same time. I don't know anything that could limit the total amount of energy we could use in an obvious way. If you know what's the limit, tell me.

[Dezakin]

$this->bbcode_second_pass_quote('', 'D')ezakin I think you need to read up on the Univeral Ecological Delema.

[Antimatter]

$this->bbcode_second_pass_quote('', 'O')h thats pretty easy for localized regions of space. For earth its not a large multiple of the solar flux, or we drown in our own waste heat. Current solar flux for a disk of the earth's size is about 150 PW... so maybe 200PW without serious risk, possibly as much as 1000PW.

[Coolman]

Doly the Dilema is we are in over shoot, we have a phantom caring capacity because of our modern technology. It boils down to invent your way to infinite growth (NOT POSSIBLE) or have a population reduction and a fall of the current way of life. Yes technology may still exist after the crash, but we won't be driving cars, watching TV and buying useless crap.

Dezakin, it great that you have faith in the human race. I personally have a different view, we will leave it at that, it is pointless to fight.

[Dezakin]

Sure I have faith in humanity. Humans are halfway between ape and god and heading in the right direction.

I've never seen a credible argument illustrate that we are in fact living beyond 'carrying capacity' whatever that is. It usually boils down to biodiversity arguments that seem a bit fallacious.

[clv101]

$this->bbcode_second_pass_quote('Dezakin', 'I')'ve never seen a credible argument illustrate that we are in fact living beyond 'carrying capacity' whatever that is. It usually boils down to biodiversity arguments that seem a bit fallacious.

[Tyler_JC]

You seem to be missing the point Dezakin:

Peak oil is not about running out of oil, it's about running out of CHEAP oil. Yes, if we had unlimited money and unlimited energy we could get gold out of the ocean. Hell, we could get gold out of the air. But the economics of getting gold out of the ocean insure that it will always be a pipe dream.

The global economy can't run on nuclear power. It can't run on solar power. I doubt it can run on coal. Even if you turn coal into gas, modern cars can't run on coal-gas. It's not a high enough octane. Every step wastes a little energy. Coal is a net plus if you find it underground and burn it. Coal is not a net plus if you transform it into gas and use it to run cars. We were better off using the coal to make steam. The steam could move a turbine and make electricity.

We have 700,000,000 cars in the world. Nearly all of them require gasoline. We have millions of planes, boats, and tractors that need high grade gas. Jet fuel can NOT be made from coal. It's just not possible. The Germans tried it in WW2 and they lost.

Correction. Everything is possible. But in terms of money and EROEI, it's not worth it. If it doesn't at least break even, it won't be tried. Worse, if it is tried, we will be worse off as a result.

[Malthus]

I ve made that post on similar topic but I think it is good for this one too. I really enjoy reading people like Dezankin and JDenver manufacturing denial without having clue about ecology. I really like the "manage nature" & "we can cope with climate change if we want to"
"global warming is beneficial", "we can survive on our crops alone, everything else is just parks"....... they just make my day. So much ignorance in so few words.

A few points on why space colonization is impossible

1 The first and probably the strongest argument is that it probably never happend in the past. The so called Fermi paradox it says that if the universe is full of life which is somewhat believed by scientists and the chances for intellligent life are high the why are we not hearing any traces of intelligent transmissions coming from outer space? The theory says that if an intelligent industrial civilisation exists it must constantly expand its energy source in order to be prosperous. So there 5 types of civilizations classed by that criteria:

1 Primitive technology civilization based on fire like ours
2 Civilizations that use the enrgy of the core of their planet
3 Civilizations thaat the use the energy of their star
4 Civilzationw that uses the energy of multiple stars
5 Civilization that uses the power of an entire galaxy

So we cant possibly detect 1&2. But we know for sure that there was/is no type 3 civilization in a radius of 2000-2500 light years , we know that there was/is no type 4 civilization in radius of 50000-75000 light years (that is more than half of our galaxy) and we know that there was/is
noi type 5 civilization in a radius of 5-9 bilion years (radius is not appropriate term here but it facilitates the demonstration). So one conclusion can be drawn either live is not as common as we think or each civilization dies lonely on its planet after using its ressources or converts to medieval type sustainable society and dies due to changes in the environement. Even if there is a possibility one should admit that we most probably screwed it by using the available energy on new SUVs and the newest Britney Spears CD.
Even if we start colonizing space we cant grow exponentially only totally inumerate or disingenous people could claim the contrary. If you do some simple calculation on the back of envelope you find that there will be more people than elementary particles in the universe in roughly 160000 years if birth rates drop at 0.1% and in 11000 years if they remain constant. There will be more dollars than elementary particles in 5000 years

2 We cannot colonize space because we dont get ecoservices of the environement. We cant possibly produce our food and oxygen without a hole lot species that are lower on the food chain we cant exist without them. And dont talk to me about terraforming Mars as we cant stop ourselves from deteraforming Earth. Probably the only space flights that we would be making will be not manned.

3 The sheer distances are so everwhelming that they make interstellar travel impossible by definition. In order to travel with the speed of light an object will see its mass increase exponnetially and the energy required will increase with the mass. Thus you are stuck with ever increasing amounts of energy. The wormhole scenario seems as distant science fiction at least to me mainly because of the estimated size of the hole.

4 Technology may grow exponentially but it requires investment (both funds and energy) growing at even higher rates because of the law of decreasing marginal returns. So you discover the most basic laws of science first with virtually no scientists because they require virtually no investment in funds and energy , however after one has discovered the basic laws things get more complicated the need arises for more scientists and equipement. 19 century science which is the basis of our current society was mainly one man show, think of Edisson, Tesla, Helmholtz,Carnot etc.... Now we need monstrous labs with hundreds of scientists to progress The number of scientists per patent has been rising exponentially much faster than scientific discoveries. I cant imagine sustainable hot fusion been discovered by a maverick garage scientist it simply wont happen. Just go through scientific journals in the 50s and 60s they were promising us ,hot cold fusion, free eneergy,AI,,robots,Moon holydays and trips to Mars, all soorts of gadgets like nuclear planes and cars( seriously they were even prototypes of planes but the pilotes seemed to be dying from radiation !!!) in 2001 (this was not considered science fiction!!!). Is the technology here today no. We may have the internet and cell phones but the promised land of breakthroughs in primary science and their application are not here. In fact most of the alternatives like Solar are being known from the end of the 19 century


$this->bbcode_second_pass_quote('', 'Ã')¢â‚¬Å“In 1839 the French physicist A. E. Becquerel discovered that conductance rises with illumination. Willoughby Smith discovered the photovoltaic effect in selenium in 1873. In 1876, William Adams discovered that illuminating a junction between selenium and platinum has a photovoltaic effect. These last two discoveries were the foundation for the first selenium solar cell construction, which was built in 1877. Albert Einstein, provided the most comprehensive theoretical work about the photovoltaic effect in 1904, for which he was awarded a Nobel Prize in 1921. In 1918, Polish scientist Czohralski discovered a method for monocrystalline silicon production, enabling monocrystalline solar cells production. The first silicon monocrystalline solar cell was constructed in 1941. In 1932, the photovoltaic effect in cadmium-selenide was observed, an important material for solar cells production.

In 1954, the RCA Laboratories published a report on CdS photovoltaic effect. AT&T Bell's Laboratories designed a solar cell with 4.5 % efficiency. In 1957, Hoffman Electronics introduced a solar cell with 8 % efficiency. In 1958 the first satellite powered by solar cells, Vanguard I, was launched. In 1960, Hoffman Electronics introduced yet another solar cell with 14 % efficiency.

A United Nation's conference on solar energy application in developing countries took place in 1961. In 1962, the first commercial telecommunications satellite Telstar, developed by Bell Laboratories, was launched using a photovoltaic system for power. In 1963, Sharp Corporation developed the first usable photovoltaic module from silicon solar cells.

Solar power is not at all new concept. It does not represent a new dynamic and technically innovative industry. Progress has been decades in the making. Costs have dropped significantly, but at a far slower rate than comparable technologies that existed in the same time period such as computers chips and cell phones. The solar cell is almost a century old in concept and half a century in implementation. There is little reason to expect a dramatic improvement or cost reductions of the nature seen in electronic products.

[Aaron]

$this->bbcode_second_pass_quote('', 'I')f you do some simple calculation on the back of envelope you find that there will be more people than elementary particles in the universe in roughly 160000 years if birth rates drop at 0.1% and in 11000 years if they remain constant. There will be more dollars than elementary particles in 5000 years

[JohnDenver]

$this->bbcode_second_pass_quote('Malthus', 'A') few points on why space colonization is impossible

1 The first and probably the strongest argument is that it probably never happend in the past. The so called Fermi paradox

[lowem]

Always wanted to pit the peak oil crowd on one side, against the technocracy / technological singularity advocates on the other side.

But actually, it's essentially the same argument, finite resources vs "technology will save us". To hear the technocracy people talk, technology will not only save us, it will bring us the stars and everything.

Also, on Wikipedia there is a sort of Hubbert_peak vs Kardashev_scale debate :
http://en.wikipedia.org/wiki/Kardashev_scale

"A common speculation suggests that the transition from Type 0 to Type I might carry a strong risk of self-destruction since there would no longer be room for further expansion on the civilization's home planet ..."

[Dezakin]

$this->bbcode_second_pass_quote('', 'A')lways wanted to pit the peak oil crowd on one side, against the technocracy / technological singularity advocates on the other side.

[lowem]

Cool, "I've found one!"

Okay, so now for the peaker response to that ...

[lowem]

$this->bbcode_second_pass_quote('Dezakin', 'T')echnological advancement has accellerated and continues to accellerate. The advancement of India and China as industrial powers implies that hundreds of millions of people will be pulled out of subsistance economies into knowledge producing roles that advance technology even faster.