Didn't watch the video but the article was good. I think their mindset is absolutely correct- we should be worrying less about overpopulation than underpopulation and we should be pushing forward trying to make technological progress instead of embracing a degrowth mindset. While it does seem like big ideas are harder to find, I think some incentive shifting (e.g. more focus by corporates on long-term growth through productivity increases and innovation and less on financial chicanery) along with the innovation that comes sometimes with a single new platform (remember all the "Uber for X" products that the iphone enabled) that can help turn the tide. Plus, seems like many more people are concerned with progress, from Cowen to Progress.institute, so hopefully with more focus there will be more results.
It seems quite obvious to me there is a lot of growth left with information being close to free now - and much of the adult world still being VERY poorly educated.
The current children that replace them will be much more educated due to free information.
I don't see how this doesn't create a huge jump in productivity in the developing world (~50% of the population).
Good point, I remember seeing a report a little while ago about literacy rates even in the U.S. and they were surprisingly bad (a quick lookup on Wikipedia shows "According to the U.S. Department of Education, 54% of adults in the United States have prose literacy below the 6th-grade level")
That said, I'm not sure it's a guarantee that kids will be more educated and productive. I spent quite a bit of time in Africa (Kenya and Cameroon for projects, Uganda for holiday) last year and many people are relatively highly educated (e.g. local university degree) but still cannot get work, access to finance to start their own biz and be productive, or as soon as they make some money their business will get taxed (legally or illegally) to death. So other factors beyond education holding folks back, and even if it was just enabled from online learning, I think we'd see much more takeup of MOOCs and the like.
I think a big - maybe huge and insurmountable - barrier to this is the sheer amount of junk attention sinks and outright wrong information on exactly the same medium that the good, free information is on.
I remember being naïve and thinking the Internet would solve the issue of spreading high-quality information far and wide. What I (and I think many others) completely neglected to realize was that it also made misinformation exponentially easier to spread.
Misinformation is not making people worse programmers or worse engineers or worse doctors or worse lawyers at the same rate (or higher) that good information is making more people better.
Misinformation is mostly affecting a relatively small portion (~10%) of the population that is predisposed to believe conspiracy.
It's not like your BiL who thinks Lizard People are running the world would've won the Nobel prize in Physics if it weren't for that Facebook post by your aunt that rotted his brain.
I think the misinformation risks are overstated. Qanon-ers are a tiny part of the population. Even antivaxers are a distinct minority. Good information wins out, even if the process is not perfect.
Are there more Qanon-ers or Coursera users though? Even if the risks are overstated (which I'm not sure about) it seems like the amount of quality learning happening online rounds to zero. Even narrowly, I'm not sure that more true information about vaccines is spread online than false information, partly because I think it's actually pretty low amount of true information being spread.
Ten years ago there was a lot of optimism that moocs we're going to bring education to the masses, make $40k/year tuition entirely obsolete, but that seems to basically have entirely failed.
I think you're defining "quality learning" too narrowly. Coursera, Kahn Academy, et al are great but for real-world practical learning nothing beats the millions of videos on youtube on how to change the headlight on your 1998 Toyota Tercel or how to build a drip irrigation system or how to install DD-WRT on your old router or how to cook birria or how to operate a grigri.
It's amazing living with what seems like all human knowledge on tap. We haven't quite reached the point where you can call out "Tank, I need a pilot program for a B-212 helicopter" but damn it sure gets closer every year.
Maybe I'm jaded but my understanding is that even if we broaden to "useful content" instead of "quality learning" and include things like "diy bookbinding" YouTube videos, that the amount of time spent on conspiracies, memes, celebrity gossip type content is consumed at orders of magnitude higher rate than the "useful" content even on YouTube, and then Instagram/Facebook/TikTok that divide is so wide that there probably is more consumption of TOS violating content than educational content.
It's still great that useful content is there for those who want it, and arguably good that it is subsidized by the junk, but it's not like "useful content" is keeping the lights on for YouTube.
> it's not like "useful content" is keeping the lights on for YouTube.
I still feel like you're being overly critical. There's a huge variety of content out there that appeals to a broad array of folks. "Useful" is highly subjective.
I pay for Youtube premium. My qanon-espousing mother (sigh) won't even log in to youtube. I couldn't even begin to speculate which content generates the most revenue - do you have any statistics?
This would be more comforting if Qanon-ers weren't getting elected to congress. And a small number of anti-vaxers is more than enough to undermine herd immunity.
The anti-vaxxer case is quite illuminating actually because anti-vax sentiment has seemingly only increased as the internet has become more popular. Good information does not win out in all cases.
And yet, at the same time, growth can't continue forever (unless you get into space colonization on artificial habitats and are able to develop that faster than population grows and other stuff we are not going to discuss now).
What happens, as the article indeed points out, is that many things keep breaking, and we keep fixing and repairing and improving and more things fail and stop working and then again we fix and replace them. And so on and so on. The main problem is that people suffers in that process. The system self-regulates, sure. Nature self-regulates all the time through natural selection, evolutionary pressure and competition. That doesn't make it right. We develop medicine because being human is the opposite of accepting the randomness, competition and cruelty of nature. We want to have control, we want people to be happy, we don't want to be exposed to arbitrary tragedy, unfairness, pain.
As I always say, don't confuse the comfort of your boat with the state of the sea. That you are comfortable riding the current wave of pressure doesn't mean no one is suffering. This doesn't mean we should never grow, but it means we should do it responsibly. Saying growth is already responsible because the world keeps self-regulating is just being blind to many of the dynamics of the system.
And ok, one may argue that finding an equilibrium is impossible. That when there are resources available, we will always start taking more and more, growing above our possibilities, taking water until we hit the bottom, dumping shit until it spills. Then pressure and competition kicks in, people fall, people suffer, self-regulation is the way and all is good again. I don't understand.
(sorry for the rant, I understand you may also have concerns about the rate of growth and welfare of people in the process, but I wanted to share this take anyway)
As you say, growth, on Earth anyway, is projected to end. We should be planning for it. Instead nations are deferring and deferring by focusing on increased immigration.
A salient quote from the first article, that I find very relevant:
> We have developed an unshakable faith in technology to address our problems. Its track record is most impressive… But we have to be careful about faith, and periodically reexamine its validity or possible limits.
Interesting article, thanks! Yeah, the move to electrify everything will have absolutely tremendous resource impacts-- I have been doing quite a bit of critical mineral policy work in the last ~6 months in the U.S. and the mining co's I talk to are all saying that the world needs to wake up and quick to just how many minerals need to be pulled out of the ground and that it'll take a whole of world collaboration to do it. Right now wealthy countries seem to prefer to let extraction happen in the developing world and processing in China because it's dirty and environmentally fraught, but something will break sooner or later because the demand is just astronomical. Maybe new mixtures will catch on (e.g. more high-end car manufacturers moving to LFP because of issues with the cobalt supply chain despite lower performance) but there's still going to be a lot of rocks that need to be dug out of the ground (or from space but no legacy mining co I've talked to believes that's realistic).
The standards have to change, and they may be “less” by some measures, but many people can still have a wonderful existence. Maybe you have to eat more vegetables and less cheeseburgers. Maybe you can’t drive your Suburban seven days a week to Starbucks. Maybe life will slow down and people will enjoy a higher quality of life with family and friends.
Maybe we upload our consciousness to computers and live in a simulated world that takes far less energy than our current one and is heaven for everybody. But I think the bigger question is less for whom? Right now it seems like it'll disproportionately affect the poor in the developing world who are least able to transition and whose populations are least responsible for climate impacts from historical growth. I wouldn't mind personally driving less (actually, haven't owned a car in a decade and walk most places), but I think in the end the people who will be punished are the poor who will have higher AC prices during summers, gas prices to go to work, etc.
That post makes me distrust all the rest of his analysis. This conclusion in particular:
> Rather, the lesson is that we must work within serious constraints to meet future demands.
Within just a few years, his spherical cow estimates of needs have been proven to not be very useful for scoping the problem. And his proposed solution of nuclear has proven to be infeasible and too expensive.
So what pretends to be an unbiased assessment based on physical principles is revealed to actually be a huge number of assumptions that are not reflective of reality, or useful for thinking about the future.
This is the exact problem that the original post talks about. We are too easily fooled by models that are simple, and wrong, like what dothemath presents.
You're not alone. That article was the reason I stopped considering him a reasonable source.
>I’ll use lead-acid batteries as a baseline. Why? Because lead-acid batteries are the cheapest way to store electricity today.
That wasn't even true when the article was written. Pumped hydro has always been cheaper than batteries, and unless we've made some big improvements since I last checked the news, it still is.
>And lead is a common element, being the endpoint of the alpha-decay chain of heavy elements like uranium and thorium.
What's really incredible is that a physicist would make this argument. Lead is not common, and anyone with even a superficial familiarity with the process of stellar nucleosynthesis can easily explain why. A zinc nucleus needs to capture around 150 neutrons to produce a lead nucleus. All heavy elements are rare on a cosmic scale:
But the other glaring hole in the analysis is the lack of reference to prior work. Japan had already developed a grid energy storage system based on sodium-sulfur batteries in the 1980s [1]. I would expect a serious analysis to consider the existing state of the art.
These mistakes don't strike me as arising from a lack of competence, but rather from a desire to inflate the apparent strength of the conclusions.
Is pumped hydro really able to scale to a significant level where it can provide enough energy storage for a national (or even state/regional) grid? I was always under the impression that pumped hydro was indeed awesome, very cost-effective, etc. but could only be developed in places with very specific geographies. After all, you have to somehow place two reservoirs near each other with a significant elevation difference. Isn't this the limit that governs pumped hydro as a storage technology?
>Isn't this the limit that governs pumped hydro as a storage technology?
I was nitpicking there, yes. Pumped hydro has an "asking if we [could/should]?" problem: extensive use of pumped hydro would be devastating to ecosystems. There are a number of "clever" strategies, such as allowing the lower reservoir to be the ocean:
but I did not intend for that sentence to be read as advocating widespread uptake of pumped hydro. It's convenient in certain places, and it can fill in gaps for communities in need, but it comes with a big cost not measured in dollars. And the use of saltwater makes this problem much worse.
Tom Murphy covered this in the series as well. While there are absolutely cases where pumped hydro is extremely effective (e.g., Dinorwig Power Station), the inherent problem is that it requires need very specific geological features. Unsurprisingly, we've hit much of the good low-hanging fruit, so future projects will be less efficient in terms of capacity per dollar invested. And also unsurprisingly, these features are not evenly geographically spaced around the globe.
I believe you're ignoring the overall point of the article, which is not that lead-acid batteries specifically are unworkable.
> Rather, the lesson is that we must work within serious constraints to meet future demands. We can’t just scale up the current go-to solution for renewable energy storage—we are yet again fresh out of silver bullet solutions. More generally, large scale energy storage is not a solved problem. We should be careful not to trivialize the problem, which tends to reduce the imperative to work like mad on establishing adequate capabilities in time (requires decades of fore-thought and planning).
He further goes on to discuss gravitational storage (e.g., hydroelectric dams and pumped storage), kinetic storage (e.g., flywheels), spring storage (e.g., compressed air), and chemical storage (e.g., batteries, fuel cells).
Again, the point is:
> With the exception of the feeble gravitational storage example, each of the ideas presented here are technically challenging, expensive, and sometimes dangerous.
And further, to contrast them to the miraculous gift that fossil fuels have been:
> A short digression to contrast the miraculous energy density in fossil fuels: our 3 days of electricity storage at 30 kWh/day requires just 12 gallons of gasoline (1.6 cubic feet; 45 liters) burned in a 20% efficient generator (it seems like the other 80% is noise!). The Earth’s battery—a one-time gift to us—turns out to be vastly superior to any of these other “solutions” in terms of energy density and long-term storage, measured in millions of years. It will be sorely missed when it’s gone.
> I believe you're ignoring the overall point of the article, which is not that lead-acid batteries specifically are unworkable.
Right, the point of the article is that storage is unworkable, and lead-acid batteries are used therein as a straw-man. You underestimate how much time I've spent studying this, and how many times I've read that absolutely infuriating article.
>He further goes on to discuss gravitational storage (e.g., hydroelectric dams and pumped storage), kinetic storage (e.g., flywheels), spring storage (e.g., compressed air), and chemical storage (e.g., batteries, fuel cells).
But he does not discuss the most significant existing application of batteries for grid storage. So when he says this:
>We can’t just scale up the current go-to solution for renewable energy storage
He hasn't even considered it! Granted, Na-S currently lags way behind Li-anything in costs, but that's a result, mostly, of innovation aimed at cars.
I would be interested in seeing your calculations, but so far every time I've seen someone criticize the article you're referring to they refuse to do any calculations to support their argument. Or even to show where his calculations are erroneous.
If storage is as workable as you say then it should be easy to demonstrate it mathematically.
"For every complex problem there is an answer that is clear, simple, and wrong." The argument is that these calculations are not relevant. That's the entire point of the original article that we are all posting under. Further, it's not even clear what calculation you want others to make. What's the question?
Malthus made a correct calculation. But it was irrelevant, and led to a bad correction.
There's a difference between what we calculate and what we want to know. And when that "calculation" is limited to simple napkin math, it's even less likely to be relevant or interesting to the real world.
Taking simple physical limits and deriving calculations about the world has yet to offer insight about technological change. Perhaps one could do that to calculate a potential limit to Moore's law, by saying here's a minimum size of a transistor, and we are reaching thay. But what about going to more layers than we currently put in transistors, instead of simply shrinking the transistor size to increase transistor count in an IC?
The calculation that actually matters is the amount of storage needed. Unfortunately, the article is extremely hand wavy about that part and so even though the cost estimate of storing a entire week’s energy consumption might not be far off, the conclusions drawn from it might be totally wrong
If you've done a calculation like his I'm interested in reading it. It is hard to evaluate your argument against his since you've made no quantifiable claims.
My point is the same as the original article. Calculations like this, of single routes, are pointless and mislead rather than inform. But it's an intellectual honeypot, because it seems interesting.
The paths of possible technology are a huge high dimensional space, but let's think of simplify it to a map of geographic space. He's taking out a telescope, pointing in a single direction, and sees a Cliff really really far off, and says "well I guess there are physical limits!" Which of course. But that's not interesting, what's interesting are which path are out there, and to explore that you have to point the telescope in lots of directions, or even better yet, start exploring territory by moving around. It might be that there's a hikable path right next to the cliff that you didn't see because of the narrow view of the telescope.
And those alternate paths are what the original article is all about. We didn't run out of food. Technology changes, and we become far more efficient and productive. And pretending that there's a physical limit somewhere without bothering to peak around is a classic way that we trick ourselves about the future.
> My point is the same as the original article. Calculations like this, of single routes, are pointless and mislead rather than inform. But it's an intellectual honeypot, because it seems interesting.
He doesn't calculate single narrow routes. In fact that's almost entirely opposite the purpose of his articles, which is to take a step back and look at things from a very broad perspective: what's the scale of our energy use, what's the scale needed to replace it with something else, and what are some back-of-the-envelope calculations we can do to get an intuitive grasp of the problem?
It's essentially applying fermi estimation to the problem, which I think most people would agree is far from what you're accusing.
> We didn't run out of food.
This was never claimed?
> Technology changes, and we become far more efficient and productive.
This is addressed, particularly in the second article linked, which itself is a highly-summarized form of his entire position.
> And pretending that there's a physical limit somewhere without bothering to peak around is a classic way that we trick ourselves about the future.
There's no pretending. There are real physical and thermodynamic limits that physicists currently know no way to circumvent, and that we have increasingly convincing reasons to believe are fundamental. Pretending these don't exist is a classic way that we trick ourselves about the future.
> There are real physical and thermodynamic limits that physicists currently know no way to circumvent, and that we have increasingly convincing reasons to believe are fundamental
Name one of these physical limits that pertains to the problem at hand.
Of course there are limits. That's not interesting. What would be interesting is a limit that imposes a course on our technological transformation. Lead ain't it.
> Within just a few years, his spherical cow estimates of needs have been proven to not be very useful for scoping the problem. And his proposed solution of nuclear has proven to be infeasible and too expensive.
Not the one you’re responding to, but I can take a stab:
The article on battery capacity assumes a country would need to store an entire week of energy to have a dependable grid based on renewables. But it isn’t like the sun just might not rise a few days in a row (and solar panels produce a non-trivial amount even on cloudy days), and it is basically guaranteed to always be windy somewhere. Overbuilding generation capacity is also missing despite being a far more economical approach to dealing with long stretches of reduced wind/solar output.
The net result is he overestimates the needed capacity by probably 1-2 orders of magnitude.
As a smaller point, his math works out to $74/kWh (in 2012 dollars) which probably seemed outrageously low at the time, but thanks to Li-Ion tech and lots of investment might actually be reached in not too long
> We have developed an unshakable faith in technology to address our problems.
The concern I have, especially WRT climate change, is this: We are not tackling climate change.
Yes, we solved ozone shrinkage, looming food shortages, deadly air pollution, acid rain (sorta), etc. all with technology. But we ACTUALLY tackled those problems; we banned lead gasoline, banned CFCs, starting scrubbing sulphur dioxide, improved crop yields.
The frustrating thing is that we have all the tools to solve climate change, today. The only question is choosing to use them.
And since we know that these new tools have learning curves that are becoming cheaper, we have prettt good estimates that the switchover will be a cheaper energy solution than fossil fuels, with greater energy independence for more countries, leading to fewer wars!
But current fossil fuel suppliers have fantastic political control of the US, and they sow seeds of doubt and fear and uncertainty in the population, and buy off politicians to prevent market solutions from coming to the market. Much less the great amount of industrial policy needed to scale what we need to scale faster to meet the needs of climate change.
Everyone thinks they want something to be done. The simple reason why few things are getting done is that it would seriously affect people's lives.
Right now, rising prices are a massive boon for the environment. Less consumption, more investment in better technology.
But people are angry, and at this rate, will start raging. It may be quite a turning point, if we're not mostly under authoritarian governments by 2030 I'll be happy.
As a collective, we simply do not want to solve climate change. Unless it magically does not affect our lives, then yeah, [whatever group, just not me] can go for it.
> The simple reason why few things are getting done is that it would seriously affect people's lives
Not true. The average person has very little control over their own patterns of consumption. The problems are systemic, and changing those will make a few very rich people and organisations a bit less (in some cases a lot less) rich.
This is a story of power where the powerful are burning the world and do not care.
That is absolutely not true. 2 examples in the US: the $7000 EV tax rebate, 80GW of new renewable energy per year. And the US is one of the worst developed nations, Europe and others are doing a lot more.
Current estimates are that we are on track for 2.5 degrees C of climate change, which would have been 6 degrees if we did nothing.
Sounds about the same trend as in Europe on a smaller scale: upper-middle folks get tax benefits associated with their Tesla purchases. So they get to pat themselves on the back for being able to maintain the same lifestyle as before.
Meanwhile the very eco-friendly single-use wooden utensils that I last used was Made in China.
Just putting smiley faces on the gas display when it starts to drop low.
Again, the ozone layer isn't "solved." It's "recovering." Go ask any reasonable person in Australia or New Zealand if the ozone is 'solved.'
We haven’t fixed the problem[1], although I agree there is some worthwhile pat-on-the-back for fixing the cause. The ozone hole is still there decades later, and will be there for decades more.
In New Zealand, they are affected by the extra UV radiation, and strong sunblock can be important.
The effect by UV should give us more understanding and sympathy for countries that will be drowned by climate change, even though our government isn't doing jack shit.
[1] NASA website says “Scientists have already seen the first definitive proof of ozone recovery, observing a 20 percent decrease in ozone depletion during the winter months from 2005 to 2016.” “Models predict that the Antarctic ozone layer will mostly recover by 2040.” Also see synthetic image of 2021 hole: https://www.nasa.gov/feature/goddard/2021/2021-antarctic-ozo...
For continued growth we need to embrace Space both civilian and military.
Funding NASA to really get to Mars and a colony on Moon in the long run give the best bang for the buck.
Longevity would help but will also ossify the institutions. There is a reason why the mindshare in the corridors of power view the world as if it is 1991, they are too damn old and do not acknowledge the new realities.
Could you help me understand the argument for longevity helping growth? I'm generally a fan (after all, I don't have a deathwish) but it's not clear to me how longer lifespans would lead to more productivity. I could theoretically see a scenario where as we continue getting more specialized we spend increasingly spend the first ~40+ years of our life in education (although hopefully new methods can speed learning rates) and then the next 40 years working and having longer productive lives would be better, but do people contribute significantly more in their last years than the rest of their careers?
My guess is that increasing life expectancy would retard (economic) growth, increasing the proportion of life that is healthy without changing life expectancy would improve growth, "longevity" can refer to one or both of those, and if you do both at the same time it's hard to predict the effects.
It seems like we'd be better off if we could evolve out of the need for growth, or at least the sort of growth that depends on limited external resources. That's tough to do because the most ravenous consumers tend to win out and be selected for, so even if you have a movement of people who are more efficient with resources (resources per unit of well-being), they'll tend to be shunted aside by the greediest segment of the population. More efficient bacteria can win out, but only if the inefficient greedy subset is made to be affected by the resource constraints.
To address that, I'll make a modest proposal: find a valley somewhere and get all of the people most driven by external accumulation to move there. Make them compete with each other, creating ever more ostentatious and expensive ways for them to demonstrate their superiority. Create cultural barriers to moving anywhere else, except for people who are willing to let go of the rat race. Let nature run its course. Speed it up by seeding the population with a gender imbalance and cultural pressures to maintain or magnify that imbalance, so that breeding opportunities are limited. This will produce a lot of churn and waste in the process, so make sure there's a sandy substrate to allow for good drainage. That last part got a bit metaphorical, and would be even more so if I referred to this valley's sand by one of its principal components: silicon.
I think what's holding back growth is inequality and the 40 hour work week. Imagine how much economic activity would be generated by fixing those things.
History has shown that inequality, when left unchecked, tends to "fix itself" by way of blaming others (race, sex, creed) for the inequality (Germany) or through terrible, bloody revolutions (France, Russia). The US passing the New Deal and focusing on improving the life of workers let the steam off the inequality pressure cooker for a bit, and we need more of that now.
Fascistic forces rise up when workers and hardliners like communists get active during times of inequality in order to protect capital from revolution.
The New Deal is also something that can happen when the capitalists would rather resolve the situation peacefully than to lose everything.
A New Deal won’t happen now because there aren’t enough actors who are forcing the hand of the capitalist class.
There is a saying that "peace should not be the peace of a graveyard" - that is, it should not be made by killing everyone who disagrees with you. In the same way, we should not "fix inequality" by making everyone poor. That was the point of my post.
You made a more concrete proposal than many ever do - "100K or more". But you're still partly speaking in code.
Now, define "redistributing". Redistributing to who? To those making below 100K? Below 60K? Below 30K? And, how much is going to be lost in bureaucratic overhead? There's very little demand for taking money from those making 100K and using it to hire more bureaucrats making 150K.
Next, define "some". How much are you going to take from someone making 100K? 200K? 1 million? 10 million?
What are you going to do about those who make very little, but have large assets? Nothing, or something? And if something, then what is your definition of "large"?
Finally, what do you mean by "start"? How much further are you going to go?
Lmao you just juxtaposed fixing inequality with “fixing inequality”. A totally opaque statement which is presumably only meant to be a wink and a nod to fellow political travellers if they happen to be in the same room so that they can agree with you. Or else (if they are not) just a totally deniable statement.
But now I’m supposed to detail my armchair tax plan/redistribution plan when I started out being a thousand times more specific than you? Sure, seems fair. And then when I answer all of those inquisitive questions, then what? Maybe bring up how taxation is inherently violent? (Well, I have no idea what your politics are like since you are all about expressing them through “air quotes”).
But sure. More concretely I think that specifically SC software engineers who work for data harvesting companies should be taxed pretty heavily. I also think that anyone with an IQ over 115 should get mandatory, shall we say, night courses on socialist/government theory and praxis. And anyone with an IQ above 125 should have to submit their big brains to 100 hours/yearly government-mandated Extracurricular Activities so that those big brains can do something good (less time for SSC (old name) and HN). Like making better government IT infrastructure so that there is less need for bureaucratic overhead (some EU countries have much better government IT which helps to streamline all kinds of services aimed at citizens). Is that specific enough for you?
Feel free to stop trying to guess my intentions (you're lousy at it). You're also breaking the site guidelines about charitable assumptions of others.
If you actually found my statement opaque, I shall try to me more clear. It's really easy for politicians to pass something, call it "fixing inequality", and completely ignore that it doesn't actually do anything to fix inequality. If you care about inequality, you don't want something labeled "fixing inequality"; you want something that actually does something about inequality.
For the rest of my point, see Paul Graham's essay Economic Inequality (http://paulgraham.com/ineq.html). He argues that attempting to fix inequality may reduce the creation of new, high-growth companies. That probably isn't the "fix" that we want - it will prevent the creation of a large number of new jobs, for one thing.
I'll ignore the personal attack parts of your second paragraph.
Your third paragraph is far enough out there for me to say that, if you're actually serious, I will oppose you as strenuously as I can.
The idea that government management of the economy can do better than private management and allocation of capital is utterly preposterous. This has been proven many times over by 20th century history, and is also immediately obvious if you've ever been to the DMV. Or if you know anything about the inner workings of a complex modern state apparatus, such as the US federal government. You might as well be calling the sky red.
(And I know that's what you're advocating from a different comment you just made about the New Deal.)
In a free market, the best allocators of resources are rewarded with more resources to continue allocating; the worse allocators are punished by losing their capacity to allocate. This is called capitalism.
Contrast that to a system where goverment eliminates inequality: Government allocates resources, meaning the worst people, people who are best at graft and pull, are rewarded. This is a disaster. We can already see this happening in the US. One egregious offender is the Dept. of Homeland Security which is siphoning off more and more national resources and growing like a cancer. The university system (which is in reality Federally managed) is an egregious offender. The medical system (which is Federally managed but run for profit through graft) is an egregious offender.
The latter system---the system of "government management," where the government doesn't let people receive unequal rewards for unequal success---is a path straight to the butcher's block.
The idea that private management and allocation of capital can do better than government management of the economy is utterly preposterous. This has been proven many times over by 21st century history, and is also immediately obvious if you've ever been to the airport. Or if you know anything about the inner workings of a complex modern commercial apparatus, such as any investment bank, or Enron.
My local DMV provides dramatically better customer service than most private companies I've interacted with lately. Government entities are also required to at least pretend to account for efficiency, whereas private companies have an unknown - but known to be massive - amount of waste, corruption, and outright fraud.
In any case, nobody is seriously advocating for a full socialist/government-planned economy. Looking at basic workers' rights and throwing a fit about OMG SOCIALISM is such a ludicrous level of libertarian delusion it borders on self-parody. In reality, it is very well known - by psychology, by statistics, and by empiricism - that societies that don't allow the most powerful to make unchecked decisions based on their current level of resources do better than those who do.
There are a few pretty obvious reasons why this is true. First, "currently having resources" is not a good indicator of skill in resource allocation. Second, there are problems of misaligned value functions - what is "efficient" for one actor may be extremely inefficient for society as a whole, requiring action by a government (or some equivalently collective entity) to properly account for externalities. Third, mismatched negotiating power (because employees must agree to some employment or else starve) mean that even those actually party to any given agreement might not be maximizing their own resource allocation by doing so. And fourth (not finally, but finally off the top of my head), there are problems of diversification in the face of uncertainty - resource-havers can take maximum-expected-value actions even when they have low probability of payoff (e.g., risky business ventures that will pay off 10x 20% of the time but go bankrupt the other 80% of the time), because they can afford to make those bets enough times to even out the variance; non-resource-havers must settle for lower-expected-value but lower-variance options, which limits their success even with perfectly skillful allocation.
I just wanted to say, I really don't appreciate the sarcasm in the first couple of paragraphs. Anybody can take someone's comment and negate each of the sentences. It's only clever and cute if the new version is kind of self-evidently true or somehow insightful. In this case, it's not.
You're also setting up a straw man with the comment about workers' rights. A call for the government to "fix inequality" with something like the New Deal is not a call for workers' rights. It's implicitly a call for the government to run much more of the economy than it already does. There is no other way to achieve the stated objective in the stated way.
Playing the old "fit about socialism" card is not impressive. I never used the word "socialism" because it's a slippery word that leads to low quality discussion. It's beside the point. Is every argument against government management magically defeated by the "OMG SOCIALISM" sarcasm that left wing people always trot out like this?
Also, probably needless to say, I disagree with your analysis.
edit: I will respond to the following:
> In reality, it is very well known - by psychology, by statistics, and by empiricism - that societies that don't allow the most powerful to make unchecked decisions based on their current level of resources do better than those who do.
That's simply not true that this is "very well known." And you are conflating political power (which is what we call "power") with economic power (which isn't what we normally call "power"). The power of Bill Gates or Warren Buffet is limited mostly to doing good or just losing their money. That has nothing to do with the power weilded by, say, the Dept. of Homeland Security, or the American medical insurance industry (which gets its power through regulatory graft backed by political power and ultimately force). Forceful power, i.e. "power," is just not comparable to the "power" one gets by voluntarily trading with others.
It's silly to say your non sequitur is "well known" by "psychology" or "statistics" (what do those have to do with it, anyway) or "empiricism." That's nothing like my saying that something is "well known" to history. 20th century history is straightforward and direct (and relevant) in a way that psychology and statistics are not. We have tried big government management many times and it always fails. Look at the many communist countries that actually stayed communist (i.e. China doesn't count, but it's a shit show anyway). Look at fascist-nationalist command economies like the Nazis and today's Russians. Those societies and economies evidently do not work. (I would add, look at the outcome of the New Deal, but that is more nuanced.) There is no way a psychology paper could have that kind of evidentiary power.
> I just wanted to say, I really don't appreciate the sarcasm in the first couple of paragraphs. Anybody can take someone's comment and negate each of the sentences. It's only clever and cute if the new version is kind of self-evidently true or somehow insightful. In this case, it's not.
When you say it: just spitting facts, being no-nonsense.
When someone else uses the same device to say the opposite: vile sarcasm which is not on-point or even funny since it is obviously false (you hold the opposite opinion so of course it is: it is self-evident).
I think the opposite is self-evident. The idea that private management and allocation of capital can do better than government management of the economy is ridiculous. This has been proven many times over by post-industrial history, and is also immediately obvious if you've ever been to the airport. Or if you know anything about the inner workings of a complex modern commercial apparatus, such as any investment bank, or Enron.
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Sarcasm is when you repeat something without negating it, but indicating that you really think the opposite (negation). Saying “private sector management doesn’t work” and meaning it is not sarcasm.
The definition I found of sarcasm is the following:
"a sharp and often satirical or ironic utterance designed to cut or give pain"
I think the response I'm complaining about is satirical, so I think it matches sarcasm by this definition.
Anyway, even if hadn't been sarcasm, technically, it seems mocking and unkind. And it's not a big deal, but I think my response of "I don't appreciate that" was pretty tit for tat.
I can understand that it feels unpleasant to be on the receiving end of a response like that. But here's the thing: the negation really is self-evident as much as the original was. Native trust in "the free market" or private allocation of capital can be just as bad as native trust in government allocation of the same.
Government management of the economy can do better than private management. Private management can do better than government management. The idea that either thing has been disproven is what is preposterous. These mechanisms don't predict success or failure by themselves.
The free economy self-regulates. That's why it works. What I mean is, people won't buy your good or service if it sucks, or a better one is available. Companies that are mismanaged lose out to their competitors and go out of business. Any weakness or rot is self-contained.
The government doesn't have a mechanism to self-regulate. Democracy was supposed to regulate the government, and probably can in small societies, or perhaps if formulated the correct way. American democracy definitely doesn't regulate government, and it doesn't self-regulate, so it's a system that's out of control.
You see the same mechanisms (plus others) in many societies in the 20th century. I don't see any evidence or reason to think the government can manage the economy. And a big part of the causal explanation is what I've stated above. Another is that the government isn't omniscient; it doesn't have enough information. Market solutions don't need to be omniscient and price serves to carry information.
As an aside, fun fact: Did you know that in the US, price controls are used by a government committee to set the price of the fundamental good, which is the US dollar? That does a lot to disrupt price as a signal of information. People think in the US we don't have government price fixing, and they are wrong. (I use the US as a pet example but I guess the above is basically true everywhere.)
The so-called free market doesn't self regulate enough to be hands off, and would fail without centrally planned lever pulling on interest rates, the banning certain practices, and tight regulation of others. Why? The big shortcoming is it doesn't solve tragedy of the commons problems like global warming, destructive pollution, etc. It also breaks down if you don't have proper limits on consolidation and collusion in order to maintain competition. It's not perfect. The free market is an ideal that we base our real pragmatic system on, one that has only mostly worked for us, and only so far.
China, on the other hand, as compared to the west, likes centrally planning things, but they can only lean on that opposing ideal so hard before they'd fail too, for reasons you have pointed out. Both approaches have yielded different mixes of central planning and bottom-up self-organization, and they're both necessarily mixes.
It's interesting to consider that the total global human population could possibly peak within our lifetime (although more likely around 2100). Global population growth rate has already peaked at 2.1% in 1968, and has since dropped to 1.1%. [1].
In the last 60 years, total fertility rate has dropped from 5 to 2.5 [2], and most industrialized nations are hovering right around replacement rate of 2.1 or actively shrinking (Japan, 1.4, Germany, 1.6, South Korea, 0.81). Albeit during COVID, the 2020 TFR in the United States was only 1.64, and has declined for the last four years in a row [3].
With technology, I'd still expect the overall "size of the economy" to grow, but it will be interesting to see how growth is affected by substantial changes in demography that play out over the next 100-200 years (if only I could stick around to watch!).
More than just the most developed industrialised countries too. India has just reached replacement and is set to start declining in a few decades. And China ditched the one child policy years ago and are now pushing for more in a bid to prevent a crash landing after they dropped below years ago - currently they're maybe ~20 years from starting to see population decline unless they soften immigration rules.
It's going to take a long time before this change sinks in for people who are still used to worrying about overpopulation, outside of the fringe groups panicking over "white replacement".
A lot of people aren't worried about overpopulation in a vacuum. They are worried about overpopulation along with the rise of personal consumption and potential competition (read: perceived zero-sum games). The job market is already ridiculously competitive. Rent and homes are already crazy, partially due to so many people insisting on living alone and many countries still not having adapted to an increasingly more individualistic society.
Telling them "it'll cool off in 20 years" is about the equivalent of telling them "yeah the problems we have now will continue another 20 years, deal with it".
A lot of people - most of the ones I end up arguing about overpopulation with in fact - are worried about it because they think growth is still heading for the skies and are arguing about it from a resource depletion and environmental angle.
I can't recall the last time I came across the arguments you put forward, and I've hardly ever discussed this with someone expressing worry about overpopulation who has argued the problem is just that it's not flattening out fast enough. In fact, I often face people who insist I'm wrong when I point out projections show us heading for population decline.
I'm not suggesting people believing what you're saying don't exist, but in my experience at least they're not the ones yelling loudest about overpopulation.
That said, with respect to people worrying about it not flattening out fast enough, we'd face far worse problems if it rates started declining faster. We're already seeing pressure for higher pension ages to offset the coming decline in a working age population in many countries. Pressure for higher tax rates, longer hours, later pensions will come in short order if the demographic shift happens fast enough, and it will be massive unpopular.
Peter Zeihan has a few fascinating presentations on the subject (youtube.com/watch?v=l0CQsifJrMc is representative) choke-full of facts and trend lines.
> In fact, the greatest threat to long-term economic growth might be the slowdown in population growth... Without more brains to push technology forward, progress might stall.
Well you really only need a small number of very talented brains. And continuing to grow the global population is probably not the most efficient way of getting them.
You're so right. I strongly dislike the argument put forward by Bezos and others (paraphrased, "imagine how many Einsteins we would have with a much larger world population"). Completely ignoring the billions of human brains that are full of scientific potential but forced to spend their efforts trying to figure out how to survive.
I find it almost aggressively misanthropic. That most people on the planet are basically there to serve an (unchangeable) percentage of those who have the luxury of thinking about abstract concepts all day.
Things like the Pareto principle suggest our ability to do science is greatly impacted by raising the total population and creating more outliers who do extreme contributions.
China has made big progress in building mega infrastructures while at the same time aggressively pursuing population control strategies. They did so by reallocation of people from farming to factories.
It could be argued that building high speed rail isn’t same as doing science. But it does provide excellent raw material for scientific research. I won’t be surprised if we start seeing scientific breakthroughs from China in next few decades.
We have hundreds of millions of people using most of their cognitive bandwidth just to survive. Imagine what’s possible if even a fraction of those stop worrying about their survival and start pursuing their curiosity.
To clarify, my view is that there are billions of people who never engage with the scientific establishment because they lack the means to do so. Among these are many people who might have made tremendous discoveries if they had grown up in a more privileged environment.
Reading between the lines, I think your view is that the valuable contributors (the extreme outliers) will find a way to contribute regardless of background. I think that's true, to some extent, but less common than we give it credit for. I also think that ignores the majority of scientists who are not outliers but make important discoveries just as a matter of course. Discoveries that may inform future breakthroughs.
Anyway, the truth is certainly somewhere in the middle. By growing the population of people who might make contributions (one way or another), we will increase the rate of contributions. I just think it's best from a moral, social, and ecological perspective to make the most of the minds we already have.
> Reading between the lines, I think your view is that the valuable contributors (the extreme outliers) will find a way to contribute regardless of background.
This is you reading in a total strawman.
There aren’t billions that would engage in science — there’s only 800 million in need of food security, total.
Of those, we’d expect only some small fraction to engage in science at all — maybe 8M, of whom a few hundred thousand will make substantial contributions and a few thousand groundbreaking work.
Of course we should help those people — but you’re off by orders of magnitude on your claims. I was objecting to your made up numbers, not whatever “between the lines” nonsense you read in to ignore that point.
And driving a total increase will require more people — because increasing the world by 2B population will drive more results than those 800M ever could. (While also being more realistic than “fix poverty everywhere”.)
It’s simple. If you don’t know when your next meal will be, you can’t spare a thought in solving cold fusion.
In order to solve problems you don’t need “more people”. You need “more people with good enough living conditions so that they can work on solving problems”. This doesn’t necessarily means increasing the total number of people. It could go down. As long as enough people went from dispossessed to good enough, that would be enough.
> You need “more people with good enough living conditions so that they can work on solving problems”.
no, this isn't true, because randomly feeding people isn't going to just magically make them able to solve problems like fusion.
What is needed is productivity increases, from perhaps existing investments or new investments, which is then used to fund research work. This funding can come privately, or via public taxation.
The popular image of an einstein like loner working in their own garage, funded by their own wealth (or some sort of social security funding), and creating world changing tech is such a mythos.
The same principle applies. It is still a prerequisite that that person needs to have the base of their piramid of needs covered in order to even think about investments or being enterprisey. Increase the quality of life of the population and you will get more of it.
In my experience, science is rarely driven by outliers. Most scientists are very smart of course, but the majority of scientific progress is shaped by slow, steady incremental work that builds on top of itself, rather than brilliant idea men.
Scientists are already self-selected outliers, eg 0.46% of undergraduate degrees are awarded in physics.
So if you’re talking about a physicist, you’re talking about a tiny fraction. If you start talking about those who complete graduate studies, and the 1 in 100 of them who generates truly groundbreaking work… you’re talking about 1 in 50,000 or rarer.
Not to mention that Einstein had a fairly stable, stress-free job that paid the bills and even allowed him some extra time to moonlight his ideas with various friends from the university and work on his doctorate. These same people want to pay people as little as possible and make them work as hard as possible, cut the social safety nets, not pay for national infrastructure like healthcare, education, and transportation, and retreat to their $250 million mansions--of which Bezos himself could afford one thousand--and fuck off to space. Tell us more about all those latent Einsteins, oh exalted one!
I'm tired of this doom and gloom. Things have never been better for the average person globally. Someone in relative poverty today lives better than even the wealthiest people a few hundred years ago.
This isn't a great example because most species will experience sigmoidal growth, not exponential growth, and consequently not suffer catastrophic collapse. As they put pressure on the carrying capacity of their environment, the environment pushes back effectively and puts pressure on the populations. In most systems some sort of stasis is reached (or you get some kind of cyclical population trend).
The trouble with humans is, because of ready access to fossil fuels and non-renewable energy, we have been able to artificially (or maybe more accurately phrased "unsustainably") extend beyond the carrying capacity of our ecosystem.
Indigenous populations of the Americas had populations in the millions but never risked, at least in North America, systemic collapse because they largely lived sustainably.
Ironically it's precisely because Malthus was proven wrong that we are in trouble. We have way, way higher energy demands than can be reasonably sustained without relying on a non-renewable source of energy. This completely disregards the additional problem of climate change. This sets us up for a type of collapse that is not usually a problem for most species, such as your lily pads.
Yes, with nuclear energy, we'll be able to provide for humanity's needs until the global population is back down below 7 billion, which, if things go well, could be reached about 100 years from now, and, if things go badly, could be reached about 100 minutes from now.
Yup, and the crappy news for humanity is that if we're expending unsustainable resources to artificially boost our population capacity that factor is likely to "correct" with a die off.
In our modern world you'd like to think that as rational beings we'd be conserving these unsustainable resources to fund "important" things - but no, we usually just release strategic oil reserves to try and game our political system... and we decrease the resource intake to reap short term gains.
This makes a common error in the direction of a causal arrow:
Technological progress is the result of ready access to fossil fuels. That is it is the result of our prosperity not it's cause.
The reason Malthus was wrong was because ready access to hydrocarbons made the Haber-Bosch process possible and easily scalable. In a world without massive amount of hydrocarbons the Haber-Bosch process is never discovered. We know this because technological advancement trail energy discovery.
I highly recommend reading through Smil's Energy and Civilization to get a better sense of this.
We are like yeast brewing in a giant vat of malted barely, seeing a what looks like an infinite amount of energy, expanding well beyond the sustainable carrying capacity of the vat. Suddenly some yeast scientists notice there is a concerning amount of alcohol in the atmosphere. Yeast economist point out this is nothing to worry about because we have solved every problem in the past, so there's nothing to really worry about.
I also can't stand the "look Malthus, Hubert and Jevons were all wrong!!!", on the scale of a 200k year species, predicted the ended within a few hundred years is pretty accurate. We just have trouble thinking beyond the time scale of a few human generations.
Finally, whale oil is a terrible example of a transition fuel. We stopped using it because we ran out of whales, but so far we've never decreased usage of an energy source that was still available to us [0]. This is no different than yeast that will consume energy filled sugars until the poison themselves. But hey, at least we get beer.
Climate change is a political problem, not a technology problem.
The technology to move beyond fossil fuels has existed since the 1950s. No new inventions are required. If our leaders decided today to migrate primary energy to nuclear power climate change would be "solved" within 20 years.
> If our leaders decided today to migrate primary energy to nuclear power climate change would be "solved" within 20 years.
I think this is inaccurate for several reasons
1. it takes human and financial resources to build a nuclear power plants, which most countries don't have
2. using the current technologies, uranium would quickly become a limiting factor
3. developing new technologies take times.
4. electricity is only a small part of the emissions of CO2
> Climate change is a political problem
Yes, this comes from the perpetual growth ideology.
This makes a common error in the direction of a causal arrow:
Technological progress is the result of ready access to fossil fuels. That is it is the result of our prosperity not it's cause.
I have also read Smil's Energy and Civilization and I have to disagree on the causal arrow direction.
Coal formed ~300 million years ago [1]. Anatomically modern humans have existed for more than 200,000 years [2]. Complex city-forming civilizations have existed for more than 5,000 years [3].
Chapter 6 of Energy and Civilization shows the dramatic shift in recent centuries: consumption of coal and later other fossil fuels underwent explosive growth only after the 18th century. This even though coal and oil were known to people thousands of years ago [4] [5]. Since people, fossil fuels, and civilization have existed in conjunction for several thousands of years, but usage of fossil fuels has become significant only in recent centuries, I believe that technological development is the proximate cause of fossil fuel usage. Once the early Industrial Revolution got under way it formed a feedback loop where technological exploitation of energy resources drove further technological development and energy exploitation. The early, inefficient Newcomen steam engine is a good example of this loop in action: its first successful application was in pumping water out of coal mines, to make more coal accessible [6].
While this article discusses the macro benefits of maintaining population growth, the reasons for the birth dropoff in developed countries is microeconomic. Kids are expensive to raise and it's hard for two parents to have successful careers with kids. Even after the one child policy ended, China's birthrate is still declining.
Everytime I read one of these articles I get the feeling that I'm reading a report from the village elders that people have never been fuller or more prosperous now that we've consumed all our seed corn. We just need to keep eating all the corn we can, and let's not worry about winter because our priests (engineers) tell us they'll probably find a way around it. I don't know, maybe its the background environment that I've spent my whole life growing up in, but every time I read this I'm always left asking what it is that I don't know/can't see, especially when it comes to the billionaire class.
Do they have access to different reports that suggest global warming won't be as devastating as the scientific consensus broadly predicts? Is it nihilism/sociopathy, aka I'll be dead by the time it gets bad and I can't feel any sort of connection/care for my offspring, let alone my fellow humans? At the risk of memeing, is there a project to build Elysium going on that us plebs don't know about and that's what SpaceX/Blue Origin is all about? I just find it hard to square what the current message is wrt to global warming, a message that appears highly credible to my lay understanding, with the behaviour of the people who have the power to help nudge the direction our society is headed. Does anyone else get this, or have thoughts on it? I am genuinely asking here, because I can't resolve the contradiction and it weighs on me.
The Elysium is already here, it's just less separate than you imagine. The $100M and billionaire classes are quite good at wresting a higher standard of living for themselves, and naturally select for those who feel separate from and superior to the unwashed masses. They're not thinking they'll be dead by the time it matters, they are concerned about their offspring, they just know that their offspring won't be the ones suffering.
Large disruptions always create opportunities for a limited subset of people to do even better at the cost of everyone else doing much worse. The billionaire class is doing everything in their control to be in that elite subset, and so far they've been quite successful at that and there really isn't any reason in sight as to why their approach is going to fail any time soon.
Elysium is made out of people who live among us for as long as it is advantageous to them to do so, who can pay reputation consultants to keep the mobs with pitchforks away, who are pouring their money and influence into promoting a culture that makes everyone feel like the elite deserve their exalted positions and that if you don't feel that way, you're at risk of losing your chance of getting up there to be with them. And making us feel like that chance is real, it's just a breakout app away, and you'd better keep playing the game or you'll be driven into medical bankruptcy and your kids will get shot at school.
I kind of hear you, but honestly I have to question even that? If it is less separate than I can imagine how does that work in the face of catastrophic global warming? It was one thing when elites could pull the strings in one nation, knowing if things go real they go just hop on a private jet, but global warming is just that, global. Everyone is going to feel the consequences, and that's not even talking about other resources such as food, raw materials, etc. You can't just have a bunker in New Zealand, unless you also plan to just live in the bunker for years and years? I guess what I am trying to say is that Elysium is plausible because it's literally "up there". Riding out the second half of this century on earth seems waaaaaay different to me.
News organisations gain more traction on fear-based claims regardless of motive
Politicians need to express their utmost urgency on whatever the above mentions
And yet there's no actual consensus on a realistic action plan. Like preventing a homocide before it happens. What point is there in preventing something that might not actually prevent anything but make it worse. To carry on like nothing's happening is the most rational choice. Like the food shortage that didn't happen.
Best to wait and see what crisis is most real and most urgent to prevent
The free market is pretty phenomenal at ensuring that technological growth will continue until we hit theoretical limits.
Shortages cause price increases. Price increases make it more economical to pay up-front costs to develop technology whose per-unit costs permit extracting a profit compared to competitors who are not as technologically advanced, who die out and are replaced by new competitors who buy the technology off-the-shelf and reduce the price further in second-mover advantage, back down to the now-lower per-unit cost. Eventually demand develops to the point where there is a persistent shortage again and the cycle repeats.
The question is, what are the theoretical limits?
Will we run out of oxygen? Unlikely, the CO2 we breathe out can be recycled back into oxygen. Water? Also unlikely, for similar reasons. Food? With hydroponics, we're no longer limited by the amount of land we have, and it's renewable. Energy? The Sahara is a vast, untapped source of solar electricity which we haven't tapped because a) transmission lines are too expensive and b) security is too expensive. When energy costs rise enough to make those costs economical, the free market will get the underlying infrastructure built, and then we're good to go.
Yeah and how innovative are markets really? The internet wasn't invented by the market. Neither was Wikipedia or Linux, two of the arguably most valuable programs ever written. In my view the market is mainly good for non innovative products. The safe but important stuff. Food etc. Look at the movie "market". How much innovation is really going on in the big studios? Another super hero sequel?
Sure, markets pick up innovations when they are profitable. But not otherwise, and I'm doubtful if the market economy is actually a net positive for innovation. What is innovation if it means finding another way to sell you stuff you don't need anyway.
Growth doesn't mean that nothing dies. Individual people die, individual businesses go out of business, and yes, civilizations are conquered. That doesn't mean that growth isn't happening on a higher/macro level.
If you want to pick a civilization whose gifts weren't subsumed into a larger, still growing civilization, you'd have to pick, what, Atlantis? A myth? OK then.
>there’s really no such thing as a natural resource. All resources are artificial. They are a product of technology. And economic growth is ultimately driven, not by material resources, but by ideas.
I think this bears repeating. It is counterintuitive and maybe even repulsive to some people.
> In fact, the greatest threat to long-term economic growth might be the slowdown in population growth. Without more brains to push technology forward, progress might stall.
It should be noted that the vast majority of human brains do not today get the opportunity to work with ideas or push technology forward. Many people don’t even get enough to eat or drink.
We have a loooong way to go on the basics of organizing human society before we need to worry about the intellectual constraint of total population size.
You don't have to wait until the entire world has this opportunity before ringing the alarm. If population growth is going down in the areas where the ideas are worked on, namely the developed world, which it is, we should still worry.
I agree with you. But development doesn't happen overnight and it's the people who control the ideas and technology that have the power to develop the rest of the world. And if that population growth is in decline at the same time it's needed to push development forward, isn't that cause for concern?
It’s not a cause for concern. The rate of population growth in highly developed areas can be turned up or down simply by admitting or denying immigrants.
That’s one of many reasons why it’s important to keep on investing in underdeveloped countries. There’s no reason why people there couldn’t contribute in the same ways that people in more developed countries contribute.
And immigration is a good way to help keep the population of developed countries growing. There really isn’t any reason why we can’t tap into the incredible human resources available in the world if we try.
1. “People in developed nations don’t breed due to stress, but meh we can just replace them” is a monstrous way to think.
2. You can’t import people as replacements above a certain rate, because it’s the culture of the developed nation which causes the success — and without maintaining that culture, the benefits cease.
Citation needed for both of your claims, especially the second. What do you mean "it's the culture?" There are democracies everywhere, white people everywhere, protestants everywhere, people speak English everywhere, what is magically special about "the culture" that makes America a powerhouse of innovation?
How do you know it doesn't have a lot to do with having two oceans to protect it, and bunch of things that happened 400 years ago to federalize it and create what amounts to a massive economic union?
How do you know it isn't one of those things where a little bit of growth magnifies over time if not disrupted by war, just as what makes SF special is that a little bit of growth started there, and the concentration of intellectual and financial capital attracted more intellectual and financial capital?
Both of those explanations have nothing to do with a hand-wavey claim of "the culture."
And what do you mean that immigration is "a monstrous suggestion?" It sounds an awful lot like you're equating high rates of immigration with genocide. What on Earth is "monstrous" about immigrants? And why is that monstrous, but gentrification of SF by techies not monstrous?
Pretty sure the "monstrous" part is trying to denounce the idea of "humans are tools, if these peasants won't do what I want, I'll make them compete with peasants from a different country".
I do think discouraging thinking of humans as resources is a good thing, even if this has the potential side-effect of making things more difficult for immigrants.
> I do think discouraging thinking of humans as resources is a good thing
I agree with that. There's a famous rant by a Canadian comic/media personality where he quotes a government slogan "People are our most precious resource" and points out that Canada's approach to "resources" is to clearcut timber and strip-mine minerals.
But we're talking about having enough population to maintain an economy of ideas. If we're talking about "There aren't enough people willing to work as flesh-robots in Amazon's warehouses, or if there are, they refuse to work in those conditions so we need desperate replacements from other countries" there's a whole different conversation to have, and it isn't really about declining populations, it's about things like living wages, labour standards, unionization, and recognition that the end-game is not competing with immigrants, it's competing with automation.
Who is the person you're quoting? I'd like to give it a listen.
Considering Canada's history with Uranium mining I'm surprised that they didn't bring that into the fold as well - it's a delicate subject since a large amount of the costs of unsafe Uranium mining were born out by indigenous peoples, but for how few actual mines there were a lot of people have died from health complications.
We already have enough population to maintain said economy of ideas, it's more about maximizing the population beyond the bare necessity.
Companies have actively been trying to make intellectual and/or creative work streamlined so they can reduce risk factors and swap out the old cog for the new one. They benefit from the increased competition so long as we don't unite against the status quo, which is also why automation is a potential disaster if we don't rethink our ways.
This is not to fight against skilled immigrants making an effort to keep things at peace while carving out their place, no. But we've seen this scenario unfold a few times now with different things, and it turns out companies tend to be the main benefactors at the cost of everyone else already in the market, and quite a few people entering the market. That cost should be transferred to the richest people, not to the working class with less and less breathing room to spare. Both have to be tackled at the same time.
You could say the same for others interpreting it in the most villainous way possible. Since original commenter has yet to respond, maybe giving a different perspective to their comment keeps it from being interpreted as a vote for Aryanism. Until said elaboration.
That second point seems really shakey to me. As someone who has immigrated into a new country I'd highlight that the cost to do so is high enough (as a young person) that I was very careful to choose a country that was in line with my personal priorities.
Can you explain what you specifically mean by culture if it differs from an alignment of personal with social priorities?
1. You think people in developed countries don’t have kids because they’re too stressed? I’d think it more stressful to live in extreme poverty as many do in other parts of the world. I don’t think you’ve done any homework on this one.
2. This has been a popular theory among the far-right and white nationalists lately. But I’d be interested to see any evidence that immigration has a negative effect on society, because it sounds fundamentally racist and wrong to me.
re 2, immigration policy is a complex question, labelling one position as 'fundamentally racist' is probably like labelling the other position as 'commodifying humans as a plantation-owner would'. Either could be true, but neither furthers productive discussion.
If only there was a way to get more people into the developed world without people in the developed world creating new people twenty+ years at a time...
The secret to America's success has always been immigration, whether by violent colonialism, accepting of refugees from persecution or war, or inviting talented people to become citizens.
The fraction of humanity in poverty has dropped as our population has grown — because those larger, more capable nations have more means to feed themselves and greater wealth to care for the poor.
A stall in population growth or a population decline runs a serious risk that our standards of living regress and those conditions worsen.
We need to maintain our growth to impact the issues you care about:
Poverty alone doesn't mean getting your brains to do brain stuff.
Most devs don't live in poverty, but most devs also aren't doing innovative work. They spend their limited intellectual stamina trying to make the boss richer, not modeling out a cancer detection algorithm.
But even working on a simple CRUD app can push an industry forward. There is so much more incremental progress to be made, which pushes the economy upwards, than just the “big name” hot ideas (like cancer).
There are still so many low hanging fruit that even simple technology can improve
Yes, a lot of "simple CRUD apps" can push an industry forward. A lot of simple stuff can also devolve into downright predatory practices which, despite making money, are anything but progress in the grander scheme of things. There's also the argument tons of "simple CRUD apps" exist because of a focus on the short term, rather than the long term. Or they exist to fill a "perceived hole" which is really just bureaucracy being bureaucracy.
To name a different example, management has absolutely exploded. It's arguable whether this explosion has freed up brains more, or instead sucked up brain power. Meanwhile, most management jobs do pay well, to the point it's hard to consider a manager living in poverty. Personally, I believe we could easily slash management in half, permanently destroying those jobs and the accompanied bureaucracy to free up the brains, but that would result in those individuals having to compete for different jobs, maybe even less desirable jobs which put them back into poverty.
Regardless, the point is poverty and freeing up brains for innovation aren't necessarily correlated or even causal. They can even be negatively correlated. Solving poverty isn't the only requirement to free up brains, if that is a societal goal. That's all.
This is what so many techie people don't get. The end user doesn't give a FUCK if you're 100% memory safe or you use a RESTful API or your app is HIJINX(TM) COMPLIANT or whatever. They want a button they can click which fixes their problem. If you give them that, then they win, so you win.
99% of the actual, serious, important problems right now are really really simple and have really dumb simple solutions. Not always the exactly optimal solution but there's one there that will do 90% of what anyone cares about, which we can do right now, but haven't yet.
Presumably they make their boss richer by providing value to someone paying their boss. Sure, some industries are probably parasitic or primarily extractive but the whole main idea of capitalism is than it can drive improvements for consumers, and for the people of a lot of countries this has largely panned out?
Most devs...spend their limited intellectual stamina trying to make the boss richer
I think it's great that devs have a choice. They can work at a company and have a relatively steady paycheck with benefits or they can make more and go off on their own and assume more risk.
My pessimistic and perhaps over-simplistic view is that growth is largely enabled by modern-day's squeezing of every last drop of people's disposable income. As the population becomes poorer in general (due to lack of breakthroughs in fundamental science and productivity, growing and aging population, widening inequality, etc.), the growth may eventually slowdown.
Automation shifts productive labor to intellectual labor. A century ago value productive labor was probable 99%+ physical labor, but it's probably now much less.
This is optimistic. Consider the fact that the physical limits on growth cannot be moved or surpassed no matter the amount of brain power thrown at it.
For example. The speed of light. How much brain power do you need to surpass that speed? Many limits are actual limits and if you think anything can be achieved just by surpassing it with technology, then I think you're not looking at the problem realistically.
If you look at the amount of progress for the last 3 decades we are literally in the same place. Still driving cars and riding trains. The only area with massive progress is IT, but every other technology (including IT itself) looks like it's hitting some sort of hump in the curve. This is despite the increasing normalization of IQ scores across the world. On average, A person with 100 IQ today would have a higher IQ then the past.
Something like fusion which is the biggest technology changer I see on the horizon still requires targeted a huge amount of government effort and resources to achieve. Such ventures are less likely to arrive purely out of the commercial sphere.
Not only do we need more brains, but we also need robust knowledge transfers between generations (between current and new brains). I.e. for new brains to be effective, they must start from the point that the old brains stopped.
As I see it the opposite process is at play. For example, cloud computing decrease the need to understand hardware/os. Or, outsourcing remove new brains from entering the knowledge accumulation pipeline.
> Or, outsourcing remove new brains from entering the knowledge accumulation pipeline.
This is why Boeing can’t build planes anymore:
They decided midcareer engineers were too expensive and their crop of senior engineers are aging out — so they no longer have the expertise necessary, due to outsourcing and not supporting their young employees.
Another way to look at this is just as an optimization problem. We found a good local optimum and it became too costly to search further.
In the early days of aerospace, the search space was mostly unknown and there were tons of companies investing R&D in a wide variety of designs. Huge amounts of human capital were invested, and as in all things, some designs worked, some didn't. Many companies went bankrupt.
Eventually we find some good designs and the risk/reward of searching the space further just doesn't make sense. Only recently with improved tech and ML/AI + simulation has the cost to search been reduced enough that it makes economic sense to try again.
I enjoy the freedom to have a closet full of extremely finely tailored clothes (going by the 1800s standards) I'm practically living the millionaire's dream from that era... but never in my life have I learned how to operate a flying shuttle loom - some information is specialized and doesn't need widespread knowing.
When I went to uni (and I'm only 35 so I'm not talking about the 80s) we learned about low level data structures, I took a course in relational algebra, operating system design, assembly language - these were necessary (imo) broadening exercises that have enabled me to better understand how to make things work performantly at a high level. Now a company may only need one or two folks like me with a passion for algorithm design among a dev team of fifty - but we don't all need formal training in every little thing.
Imparting the knowledge of how to learn, along with those pieces of basic information we deem critical, can be enough.
Robust knowledge transfers between generations sounds nice, but the older people are retiring in droves and younger people aren't replacing them quickly enough. We just get a bunch of newbloods that don't get the chance to learn from old hands who will get paid less than them due to labor shortages. It is too bad we treat people like shit in this country. Consider, if you would the situation of nurses in America. We have record nursing school enrollment, high rates of turnover, increasing rates of violence against medical professionals, and levels of burnout that should give everyone pause.
Nurses and doctors are all facing mental health crises. Violence against medical professionals is rising at rapid rates even prior to the pandemic. Many health professionals don't report assaults either because of their altruistic tendencies. More than half of nurses are thinking or planning on quitting their jobs. More than half of all doctors wouldn't recommend or don't want their children to go into medicine. Here's a fun little excercise for you. Google the nearest hospital near you and see how many openings they have. Especially for security. The hospital near me has never had a security officer. Now they have five. Hospital workers are being taught de-escalation techniques and taking self defense classes. Senior homes are facing record shortages of labor.
Who'd you rather have treating your loved ones? The nurses with decades of practical experience, or the nursing school graduates who will quit after 3 years of burn out and stress? We're starting to treat nurses as badly as we do teachers. What do we expect to happen? This is just one industry as well. A few fun links for your perusal.
The post focuses on countering the strawman-like argument that resource shortages are the primary threat with overpopulation. However, it is overwhelmingly clear that climate change is the biggest threat related to overpopulation, unless we are able to get carbon emissions per capita below 0 globally.
Meh. Climate change is devastating for huge chunks of the planet. But the population of the hottest parts could easily move to cooler parts of the world, most of which are sparsely populated.
I cant see the article but yes it isn't easy to be a refugee right now. However I'd think places like Siberia would actually be much better with 100 million poor people from India who could build cities from scratch (over decades of course).
And in a very real sense AGW is a resource shortage problem... the natural resource that's being depleted here is the natural carbon cycle that that kept CO2 levels fairly stable and gave us temperatures at the near optimal levels they were at during the time that civilization developed. We are "depleting" this resource by overloading it with excess CO2 and by destroying natural carbon sinks.
Natural resources aren't limited to materials, natural processes also qualify. So it is also with fresh water... we won't "run out" of water, but we are exceeding the water-recycling capacities of the biosphere and thus this absolutely essential natural resource is becoming quite scarce in a lot of places. Theoretically you can replace it with artificial processes (desalination, treating contaminated water, etc) but to do that on a scale that can replace that natural water cycle is completely beyond our technology for now.
Most people on the post-growth side of the argument tend to argue that outputs (green house gases, toxins) and not inputs are the major constraining factor. He should really have addressed that.
Notably this article doesn't mention water, and doesn't discuss land much other than a single line about Malthus and farmland. Then there's this assertion:
> "But the deeper reason is that there’s really no such thing as a natural resource. All resources are artificial. They are a product of technology. And economic growth is ultimately driven, not by material resources, but by ideas."
Arable land - i.e. topsoil - is not a product of technology, it's a product of geology and biology, namely the erosion of rocks and the accumulation of biomass. Yes, one can indeed make an artificial soil-like system (hydroponics), but this in turn requires raw materials (typically clay pebbles, plastic pots, plastic pipes, plus a complete nutrient mixture of simple chemicals) which are in turn made from limited material resources.
Similarly, fresh water is a limited natural resource, and in the absence of water, human populations do not grow. Just look at a population density map of the United States - note how few people live in the desert zones. Again, there are technological approaches: desalinate ocean water, pump it to the desert, and grow food hydroponically. This requires an investment of material resources and energy.
I get this feeling that economimsts who makes these claims about infinite growth have simply never studied the conservation of energy, or the conservation of mass. Every source I've looked at puts the minimal land area for food production for one human at about two hectares with traditional agriculture, and maybe half that with modern industrial double cropping methods. US farmland is about 166 million hectares, so that sort of fits, as the US population is about 330 million; exports of food also appear to match imports of food so that's a wash.
So clearly there are limits on the growth of the human population on a finite planet. If the question is, "can you have infinite economic growth with a fixed human population", well, whatever discipline makes claims like that is one entirely divorced from physical reality. Inflation maybe?
While the world has numerous issues that need to be solved - I think we've, for the time being, been able to classify exhaustion of materials as a problem we won't have to deal with for a long time.
The earth has a lot of matter in it - it is absurdly massive - technological advances in replicating necessary raw resources (and your topsoil one is particularly good to demonstrate this) have pushed us from looking at an absolute limit to instead viewing the perpetual creation of new components as a steadily rising economic burden.
One raw resource that is actually quickly depleting is river sand for concrete - our current consumption trends are extremely scary here and some governments (CoughIndiaCough) are doing an absolutely terrible job at properly enforcing externality costs on extraction leading to mass habitat destruction. But, if we suddenly found ourselves without easy access to rough river sand we do have alternative construction materials including processed wood in various forms that can be extremely resilient.
I don't really like the wording of the article in defining all resources as artificial - but the natural components driving the economy are quite abundant.
> the natural components driving the economy are quite abundant
defined narrowly, yes, most of them, but consider ecosystem services as equally important economic inputs and the picture looks very different
on this view things like stable weather patterns etc are also natural components driving the economy, and we are rapidly rendering this and many others scarce
> Similarly, fresh water is a limited natural resource, and in the absence of water, human populations do not grow
This isn't really true any longer. Desalinating seawater costs about $1 per 1000 liters. You need a relatively prosperous country to be able to afford that, of course, but an industrialized economy with reasonable levels of corruption is perfectly capable of desalinating enough water to make civilization work.
It's practically tautological that there's limits to population size in a finite world, and that growth cannot be infinite in a finite universe. But I think people often frame this question the wrong way. It's a bit of a straw man.
Economic growth is proportional to the amount of problems solved that humans care about. And the cost of the solution, of course, in terms of human effort. It isn't necessarily proportional to the amount of physical resources consumed or bound. It's a reasonable assumption that there's generally a positive correlation, but the function and coefficients don't have to be linear. That leaves a lot of headroom.
People should rather think about infinite (arbitrary!!) economic growth in terms of what can be done to make the lives of humans better, on average. Even in the Western world, we are so far away from the hedonistic limits that it's ridiculous. It's trivial to imagine a world with no illness, perfect health, indefinite lifespan, very high freedom and low repression, no seriously bothersome and mandatory chores for anyone and so on. What can be done to get closer to such a world? So much.
The limit isn't defined by how polluting our cars can be, or how much beef we're able to produce. Many of these arguments collapse into the completely unimaginative.
"Desalinating seawater costs about $1 per 1000 liters..."
Ah... so if I'm in the middle of the Mojave Desert, and have no water, but I do have a dollar in my pocket, someone will deliver me 1000 liters of water, sourced from desalination of Pacific Ocean water? How much energy will that take?
I imagine that if civilization reaches a developmental limit in access to natural fresh water, migration will happen to somewhat developed coastal areas rather than the Mojave Desert.
$1 per 1000L figure isn't for an individual, delivered anywhere.
It's the approximate cost, in aggregate, for supplying a city's worth of water using desal, after having made the infrastructure and such. If solar and other renewable energies could be scaled higher, this cost might be even lower.
> Every source I've looked at puts the minimal land area for food production for one human at about two hectares with traditional agriculture, and maybe half that with modern industrial double cropping methods.
You yourself said that technology doubled the output with the same input.
The whole articles point is that tech enables us to get more from what we have, to support growth. Maybe enough smart Americans will find a way to double it again, so the US can support 660M people with our 166 Hectares. Maybe then we’ll support 1.2B after a new invention!
Maybe they’ll discover a way to grow plants with salt water allowing use of the ocean while saving the freshwater. Maybe then they’ll find a way to make hydroponics less material intense, and they’ll build floating farms on the ocean, giving us more “land”. Given enough smart people, there’s so much more room for growth. That’s the point. We’re not at the breaking point yet.
> And economic growth is ultimately driven, not by material resources, but by ideas.
Ideas are an abstract thing. To realise an idea, one needs material resources.
The problem has nothing to do with either finite material resources or ideas. The problem is what those material resources get converted into. What we do is we transform one type of material into another during any activity. How we can limit ourselves to not transforming these useable material into unuseable material is what is the challenge for growth. We should only be promoting those ideas that have a better opportunity to transform one usable material resource into another usable resource without taking much time and without harming the ecology.
> We should only be promoting those ideas that have a better opportunity to transform one usable material resource into another usable resource without taking much time and without harming the ecology.
This is quite insightful. Biological systems have this characteristic. It uses the circular conversion of resources as a way to channel energy into whatever is useful for it.
Humans beings, as a type of biology do this, but have for a few centuries been converting a useful material (fossil hydrocarbons) into a comparatively useless material (C02) at rate faster than the ecosystem can reabsorb it.
The question is how we can return to something like the previous equilibrium where we rebuild our modern lifestyles around energy "springs" - aka energy storage and release mechanisms - that absorb and release it to do useful work for us, alleviating the need to burn and release long fossilized energy to achieve that.
also related to circular economics is the principle that tools should be easy to supersede when we discover undesirable side effects or invent new techniques
we build software to be easy to refactor, we might benefit from building societies and technologies with this in mind as well
an atmosphere full of carbon is not easy to deprecate, nor are pervasive hydrocarbon infrastructure, urban areas designed around the automobile, etc
before we deploy something at scale it may be wise to have some idea how to gracefully roll it back or put something else in its place
The solution to tackling declining population can be by generating Genetically modified babies. This new race of humans will be smarter and stronger than the current lot due to eugenics. CRISPR will make it possible and it's already happening in China. The west needs to look at it instead of ramping up immigration and importing instability from third world countries.
That sounds pretty cool, if you're writing dystopian sci-fi.
Back in the trenches, I'm thinking that people making "have a baby, or not?" decisions will not find "But you could have a SuperBaby!" to be a persuasive argument. Without plot armor, who's magically making sure that SuperBaby doesn't have some grim bugs, which might take a while to manifest? Any good reason to think that SuperBaby will need fewer diaper changes and less parental resources long-term? Will want to look after his or her non-Super "parents" in their old age? Or that the currently available version of SuperBaby won't be obsoleted by v2.0 in a year or two - with upgrades to v2.0 being "less than practical and satisfactory"? Really, it'd be smarter to wait until v2.0 comes out...wait until v2.4 comes out...until 3.0...wait...still waiting...still waiting...
It may be a bit misleading to say that CRISPR babies are "already happening in China". Yes, there was a researcher who genetically modified a few babies. (Specifically, to give them HIV resistance.) But he received a prison sentence for his actions.
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[ 3.0 ms ] story [ 266 ms ] threadSame is true for our glorious, of course unavoidable, an extremely resilient and fair economic system.
There is only black and white, zero and one, locusts capitalism and stalinistic communism...
/s
The current children that replace them will be much more educated due to free information.
I don't see how this doesn't create a huge jump in productivity in the developing world (~50% of the population).
That said, I'm not sure it's a guarantee that kids will be more educated and productive. I spent quite a bit of time in Africa (Kenya and Cameroon for projects, Uganda for holiday) last year and many people are relatively highly educated (e.g. local university degree) but still cannot get work, access to finance to start their own biz and be productive, or as soon as they make some money their business will get taxed (legally or illegally) to death. So other factors beyond education holding folks back, and even if it was just enabled from online learning, I think we'd see much more takeup of MOOCs and the like.
Edit: Grammar
Misinformation is mostly affecting a relatively small portion (~10%) of the population that is predisposed to believe conspiracy.
It's not like your BiL who thinks Lizard People are running the world would've won the Nobel prize in Physics if it weren't for that Facebook post by your aunt that rotted his brain.
Information as a whole is good (so far).
Ten years ago there was a lot of optimism that moocs we're going to bring education to the masses, make $40k/year tuition entirely obsolete, but that seems to basically have entirely failed.
It's amazing living with what seems like all human knowledge on tap. We haven't quite reached the point where you can call out "Tank, I need a pilot program for a B-212 helicopter" but damn it sure gets closer every year.
It's still great that useful content is there for those who want it, and arguably good that it is subsidized by the junk, but it's not like "useful content" is keeping the lights on for YouTube.
I still feel like you're being overly critical. There's a huge variety of content out there that appeals to a broad array of folks. "Useful" is highly subjective.
I pay for Youtube premium. My qanon-espousing mother (sigh) won't even log in to youtube. I couldn't even begin to speculate which content generates the most revenue - do you have any statistics?
The anti-vaxxer case is quite illuminating actually because anti-vax sentiment has seemingly only increased as the internet has become more popular. Good information does not win out in all cases.
Why? The vaccine isn't very effective in preventing transmission of Omicron (only ~40%).
Anti-vaxxers are not the thing preventing Covid from ending at this point.
I mean - sure, with a different virus where the vaccine is close to 100% effective at preventing transmission or the R0 is not much higher than 1.
But not with this virus.
Why are anti-vaxxers getting elected to congress any worse than people who believe in Lizard People getting elected to congress?
What happens, as the article indeed points out, is that many things keep breaking, and we keep fixing and repairing and improving and more things fail and stop working and then again we fix and replace them. And so on and so on. The main problem is that people suffers in that process. The system self-regulates, sure. Nature self-regulates all the time through natural selection, evolutionary pressure and competition. That doesn't make it right. We develop medicine because being human is the opposite of accepting the randomness, competition and cruelty of nature. We want to have control, we want people to be happy, we don't want to be exposed to arbitrary tragedy, unfairness, pain.
As I always say, don't confuse the comfort of your boat with the state of the sea. That you are comfortable riding the current wave of pressure doesn't mean no one is suffering. This doesn't mean we should never grow, but it means we should do it responsibly. Saying growth is already responsible because the world keeps self-regulating is just being blind to many of the dynamics of the system.
And ok, one may argue that finding an equilibrium is impossible. That when there are resources available, we will always start taking more and more, growing above our possibilities, taking water until we hit the bottom, dumping shit until it spills. Then pressure and competition kicks in, people fall, people suffer, self-regulation is the way and all is good again. I don't understand.
(sorry for the rant, I understand you may also have concerns about the rate of growth and welfare of people in the process, but I wanted to share this take anyway)
https://dothemath.ucsd.edu/2011/07/can-economic-growth-last/
https://dothemath.ucsd.edu/2012/04/economist-meets-physicist...
A salient quote from the first article, that I find very relevant:
> We have developed an unshakable faith in technology to address our problems. Its track record is most impressive… But we have to be careful about faith, and periodically reexamine its validity or possible limits.
> Rather, the lesson is that we must work within serious constraints to meet future demands.
Within just a few years, his spherical cow estimates of needs have been proven to not be very useful for scoping the problem. And his proposed solution of nuclear has proven to be infeasible and too expensive.
So what pretends to be an unbiased assessment based on physical principles is revealed to actually be a huge number of assumptions that are not reflective of reality, or useful for thinking about the future.
This is the exact problem that the original post talks about. We are too easily fooled by models that are simple, and wrong, like what dothemath presents.
>I’ll use lead-acid batteries as a baseline. Why? Because lead-acid batteries are the cheapest way to store electricity today.
That wasn't even true when the article was written. Pumped hydro has always been cheaper than batteries, and unless we've made some big improvements since I last checked the news, it still is.
>And lead is a common element, being the endpoint of the alpha-decay chain of heavy elements like uranium and thorium.
What's really incredible is that a physicist would make this argument. Lead is not common, and anyone with even a superficial familiarity with the process of stellar nucleosynthesis can easily explain why. A zinc nucleus needs to capture around 150 neutrons to produce a lead nucleus. All heavy elements are rare on a cosmic scale:
https://en.wikipedia.org/wiki/Abundance_of_the_chemical_elem...
But the other glaring hole in the analysis is the lack of reference to prior work. Japan had already developed a grid energy storage system based on sodium-sulfur batteries in the 1980s [1]. I would expect a serious analysis to consider the existing state of the art.
These mistakes don't strike me as arising from a lack of competence, but rather from a desire to inflate the apparent strength of the conclusions.
1: https://ceramics.onlinelibrary.wiley.com/doi/abs/10.1111/j.1...
I was nitpicking there, yes. Pumped hydro has an "asking if we [could/should]?" problem: extensive use of pumped hydro would be devastating to ecosystems. There are a number of "clever" strategies, such as allowing the lower reservoir to be the ocean:
https://municipalwaterleader.com/implementing-oceanuss-pumpe...
but I did not intend for that sentence to be read as advocating widespread uptake of pumped hydro. It's convenient in certain places, and it can fill in gaps for communities in need, but it comes with a big cost not measured in dollars. And the use of saltwater makes this problem much worse.
https://dothemath.ucsd.edu/2011/11/pump-up-the-storage/
> Rather, the lesson is that we must work within serious constraints to meet future demands. We can’t just scale up the current go-to solution for renewable energy storage—we are yet again fresh out of silver bullet solutions. More generally, large scale energy storage is not a solved problem. We should be careful not to trivialize the problem, which tends to reduce the imperative to work like mad on establishing adequate capabilities in time (requires decades of fore-thought and planning).
He further goes on to discuss gravitational storage (e.g., hydroelectric dams and pumped storage), kinetic storage (e.g., flywheels), spring storage (e.g., compressed air), and chemical storage (e.g., batteries, fuel cells).
Again, the point is:
> With the exception of the feeble gravitational storage example, each of the ideas presented here are technically challenging, expensive, and sometimes dangerous.
And further, to contrast them to the miraculous gift that fossil fuels have been:
> A short digression to contrast the miraculous energy density in fossil fuels: our 3 days of electricity storage at 30 kWh/day requires just 12 gallons of gasoline (1.6 cubic feet; 45 liters) burned in a 20% efficient generator (it seems like the other 80% is noise!). The Earth’s battery—a one-time gift to us—turns out to be vastly superior to any of these other “solutions” in terms of energy density and long-term storage, measured in millions of years. It will be sorely missed when it’s gone.
https://dothemath.ucsd.edu/2011/09/got-storage-how-hard-can-...
Right, the point of the article is that storage is unworkable, and lead-acid batteries are used therein as a straw-man. You underestimate how much time I've spent studying this, and how many times I've read that absolutely infuriating article.
>He further goes on to discuss gravitational storage (e.g., hydroelectric dams and pumped storage), kinetic storage (e.g., flywheels), spring storage (e.g., compressed air), and chemical storage (e.g., batteries, fuel cells).
But he does not discuss the most significant existing application of batteries for grid storage. So when he says this:
>We can’t just scale up the current go-to solution for renewable energy storage
He hasn't even considered it! Granted, Na-S currently lags way behind Li-anything in costs, but that's a result, mostly, of innovation aimed at cars.
If storage is as workable as you say then it should be easy to demonstrate it mathematically.
Malthus made a correct calculation. But it was irrelevant, and led to a bad correction.
There's a difference between what we calculate and what we want to know. And when that "calculation" is limited to simple napkin math, it's even less likely to be relevant or interesting to the real world.
Taking simple physical limits and deriving calculations about the world has yet to offer insight about technological change. Perhaps one could do that to calculate a potential limit to Moore's law, by saying here's a minimum size of a transistor, and we are reaching thay. But what about going to more layers than we currently put in transistors, instead of simply shrinking the transistor size to increase transistor count in an IC?
The paths of possible technology are a huge high dimensional space, but let's think of simplify it to a map of geographic space. He's taking out a telescope, pointing in a single direction, and sees a Cliff really really far off, and says "well I guess there are physical limits!" Which of course. But that's not interesting, what's interesting are which path are out there, and to explore that you have to point the telescope in lots of directions, or even better yet, start exploring territory by moving around. It might be that there's a hikable path right next to the cliff that you didn't see because of the narrow view of the telescope.
And those alternate paths are what the original article is all about. We didn't run out of food. Technology changes, and we become far more efficient and productive. And pretending that there's a physical limit somewhere without bothering to peak around is a classic way that we trick ourselves about the future.
He doesn't calculate single narrow routes. In fact that's almost entirely opposite the purpose of his articles, which is to take a step back and look at things from a very broad perspective: what's the scale of our energy use, what's the scale needed to replace it with something else, and what are some back-of-the-envelope calculations we can do to get an intuitive grasp of the problem?
It's essentially applying fermi estimation to the problem, which I think most people would agree is far from what you're accusing.
> We didn't run out of food.
This was never claimed?
> Technology changes, and we become far more efficient and productive.
This is addressed, particularly in the second article linked, which itself is a highly-summarized form of his entire position.
> And pretending that there's a physical limit somewhere without bothering to peak around is a classic way that we trick ourselves about the future.
There's no pretending. There are real physical and thermodynamic limits that physicists currently know no way to circumvent, and that we have increasingly convincing reasons to believe are fundamental. Pretending these don't exist is a classic way that we trick ourselves about the future.
Name one of these physical limits that pertains to the problem at hand.
Of course there are limits. That's not interesting. What would be interesting is a limit that imposes a course on our technological transformation. Lead ain't it.
Care to elaborate?
The article on battery capacity assumes a country would need to store an entire week of energy to have a dependable grid based on renewables. But it isn’t like the sun just might not rise a few days in a row (and solar panels produce a non-trivial amount even on cloudy days), and it is basically guaranteed to always be windy somewhere. Overbuilding generation capacity is also missing despite being a far more economical approach to dealing with long stretches of reduced wind/solar output.
The net result is he overestimates the needed capacity by probably 1-2 orders of magnitude.
As a smaller point, his math works out to $74/kWh (in 2012 dollars) which probably seemed outrageously low at the time, but thanks to Li-Ion tech and lots of investment might actually be reached in not too long
The concern I have, especially WRT climate change, is this: We are not tackling climate change.
Yes, we solved ozone shrinkage, looming food shortages, deadly air pollution, acid rain (sorta), etc. all with technology. But we ACTUALLY tackled those problems; we banned lead gasoline, banned CFCs, starting scrubbing sulphur dioxide, improved crop yields.
And since we know that these new tools have learning curves that are becoming cheaper, we have prettt good estimates that the switchover will be a cheaper energy solution than fossil fuels, with greater energy independence for more countries, leading to fewer wars!
But current fossil fuel suppliers have fantastic political control of the US, and they sow seeds of doubt and fear and uncertainty in the population, and buy off politicians to prevent market solutions from coming to the market. Much less the great amount of industrial policy needed to scale what we need to scale faster to meet the needs of climate change.
The peaceful options that maintain our society and cultures are running out
Terrifying
Right now, rising prices are a massive boon for the environment. Less consumption, more investment in better technology.
But people are angry, and at this rate, will start raging. It may be quite a turning point, if we're not mostly under authoritarian governments by 2030 I'll be happy.
As a collective, we simply do not want to solve climate change. Unless it magically does not affect our lives, then yeah, [whatever group, just not me] can go for it.
Not true. The average person has very little control over their own patterns of consumption. The problems are systemic, and changing those will make a few very rich people and organisations a bit less (in some cases a lot less) rich.
This is a story of power where the powerful are burning the world and do not care.
That is absolutely not true. 2 examples in the US: the $7000 EV tax rebate, 80GW of new renewable energy per year. And the US is one of the worst developed nations, Europe and others are doing a lot more.
Current estimates are that we are on track for 2.5 degrees C of climate change, which would have been 6 degrees if we did nothing.
We're doing something. Just not enough.
Meanwhile the very eco-friendly single-use wooden utensils that I last used was Made in China.
Just putting smiley faces on the gas display when it starts to drop low.
That is correct. We are not tackling climate change
We haven’t fixed the problem[1], although I agree there is some worthwhile pat-on-the-back for fixing the cause. The ozone hole is still there decades later, and will be there for decades more.
In New Zealand, they are affected by the extra UV radiation, and strong sunblock can be important.
The effect by UV should give us more understanding and sympathy for countries that will be drowned by climate change, even though our government isn't doing jack shit.
[1] NASA website says “Scientists have already seen the first definitive proof of ozone recovery, observing a 20 percent decrease in ozone depletion during the winter months from 2005 to 2016.” “Models predict that the Antarctic ozone layer will mostly recover by 2040.” Also see synthetic image of 2021 hole: https://www.nasa.gov/feature/goddard/2021/2021-antarctic-ozo...
Sure. But it's recovering, acid rain isn't solved either, but it's getting better.
Climate change is getting worse, every, single, year.
I think we're about to stress test this hypothesis via the Ukraine war.
Longevity would help but will also ossify the institutions. There is a reason why the mindshare in the corridors of power view the world as if it is 1991, they are too damn old and do not acknowledge the new realities.
It seems like we'd be better off if we could evolve out of the need for growth, or at least the sort of growth that depends on limited external resources. That's tough to do because the most ravenous consumers tend to win out and be selected for, so even if you have a movement of people who are more efficient with resources (resources per unit of well-being), they'll tend to be shunted aside by the greediest segment of the population. More efficient bacteria can win out, but only if the inefficient greedy subset is made to be affected by the resource constraints.
To address that, I'll make a modest proposal: find a valley somewhere and get all of the people most driven by external accumulation to move there. Make them compete with each other, creating ever more ostentatious and expensive ways for them to demonstrate their superiority. Create cultural barriers to moving anywhere else, except for people who are willing to let go of the rat race. Let nature run its course. Speed it up by seeding the population with a gender imbalance and cultural pressures to maintain or magnify that imbalance, so that breeding opportunities are limited. This will produce a lot of churn and waste in the process, so make sure there's a sandy substrate to allow for good drainage. That last part got a bit metaphorical, and would be even more so if I referred to this valley's sand by one of its principal components: silicon.
Remember that political changes often don't do what the label says.
The New Deal is also something that can happen when the capitalists would rather resolve the situation peacefully than to lose everything.
A New Deal won’t happen now because there aren’t enough actors who are forcing the hand of the capitalist class.
Something more concrete and non-code: Americans could start by redistributing some of the money belonging to people who earn 100K or more a year.
You made a more concrete proposal than many ever do - "100K or more". But you're still partly speaking in code.
Now, define "redistributing". Redistributing to who? To those making below 100K? Below 60K? Below 30K? And, how much is going to be lost in bureaucratic overhead? There's very little demand for taking money from those making 100K and using it to hire more bureaucrats making 150K.
Next, define "some". How much are you going to take from someone making 100K? 200K? 1 million? 10 million?
What are you going to do about those who make very little, but have large assets? Nothing, or something? And if something, then what is your definition of "large"?
Finally, what do you mean by "start"? How much further are you going to go?
But now I’m supposed to detail my armchair tax plan/redistribution plan when I started out being a thousand times more specific than you? Sure, seems fair. And then when I answer all of those inquisitive questions, then what? Maybe bring up how taxation is inherently violent? (Well, I have no idea what your politics are like since you are all about expressing them through “air quotes”).
But sure. More concretely I think that specifically SC software engineers who work for data harvesting companies should be taxed pretty heavily. I also think that anyone with an IQ over 115 should get mandatory, shall we say, night courses on socialist/government theory and praxis. And anyone with an IQ above 125 should have to submit their big brains to 100 hours/yearly government-mandated Extracurricular Activities so that those big brains can do something good (less time for SSC (old name) and HN). Like making better government IT infrastructure so that there is less need for bureaucratic overhead (some EU countries have much better government IT which helps to streamline all kinds of services aimed at citizens). Is that specific enough for you?
If you actually found my statement opaque, I shall try to me more clear. It's really easy for politicians to pass something, call it "fixing inequality", and completely ignore that it doesn't actually do anything to fix inequality. If you care about inequality, you don't want something labeled "fixing inequality"; you want something that actually does something about inequality.
For the rest of my point, see Paul Graham's essay Economic Inequality (http://paulgraham.com/ineq.html). He argues that attempting to fix inequality may reduce the creation of new, high-growth companies. That probably isn't the "fix" that we want - it will prevent the creation of a large number of new jobs, for one thing.
I'll ignore the personal attack parts of your second paragraph.
Your third paragraph is far enough out there for me to say that, if you're actually serious, I will oppose you as strenuously as I can.
what do you mean that's not what you meant at all
(And I know that's what you're advocating from a different comment you just made about the New Deal.)
In a free market, the best allocators of resources are rewarded with more resources to continue allocating; the worse allocators are punished by losing their capacity to allocate. This is called capitalism.
Contrast that to a system where goverment eliminates inequality: Government allocates resources, meaning the worst people, people who are best at graft and pull, are rewarded. This is a disaster. We can already see this happening in the US. One egregious offender is the Dept. of Homeland Security which is siphoning off more and more national resources and growing like a cancer. The university system (which is in reality Federally managed) is an egregious offender. The medical system (which is Federally managed but run for profit through graft) is an egregious offender.
The latter system---the system of "government management," where the government doesn't let people receive unequal rewards for unequal success---is a path straight to the butcher's block.
My local DMV provides dramatically better customer service than most private companies I've interacted with lately. Government entities are also required to at least pretend to account for efficiency, whereas private companies have an unknown - but known to be massive - amount of waste, corruption, and outright fraud.
In any case, nobody is seriously advocating for a full socialist/government-planned economy. Looking at basic workers' rights and throwing a fit about OMG SOCIALISM is such a ludicrous level of libertarian delusion it borders on self-parody. In reality, it is very well known - by psychology, by statistics, and by empiricism - that societies that don't allow the most powerful to make unchecked decisions based on their current level of resources do better than those who do.
There are a few pretty obvious reasons why this is true. First, "currently having resources" is not a good indicator of skill in resource allocation. Second, there are problems of misaligned value functions - what is "efficient" for one actor may be extremely inefficient for society as a whole, requiring action by a government (or some equivalently collective entity) to properly account for externalities. Third, mismatched negotiating power (because employees must agree to some employment or else starve) mean that even those actually party to any given agreement might not be maximizing their own resource allocation by doing so. And fourth (not finally, but finally off the top of my head), there are problems of diversification in the face of uncertainty - resource-havers can take maximum-expected-value actions even when they have low probability of payoff (e.g., risky business ventures that will pay off 10x 20% of the time but go bankrupt the other 80% of the time), because they can afford to make those bets enough times to even out the variance; non-resource-havers must settle for lower-expected-value but lower-variance options, which limits their success even with perfectly skillful allocation.
You're also setting up a straw man with the comment about workers' rights. A call for the government to "fix inequality" with something like the New Deal is not a call for workers' rights. It's implicitly a call for the government to run much more of the economy than it already does. There is no other way to achieve the stated objective in the stated way.
Playing the old "fit about socialism" card is not impressive. I never used the word "socialism" because it's a slippery word that leads to low quality discussion. It's beside the point. Is every argument against government management magically defeated by the "OMG SOCIALISM" sarcasm that left wing people always trot out like this?
Also, probably needless to say, I disagree with your analysis.
edit: I will respond to the following:
> In reality, it is very well known - by psychology, by statistics, and by empiricism - that societies that don't allow the most powerful to make unchecked decisions based on their current level of resources do better than those who do.
That's simply not true that this is "very well known." And you are conflating political power (which is what we call "power") with economic power (which isn't what we normally call "power"). The power of Bill Gates or Warren Buffet is limited mostly to doing good or just losing their money. That has nothing to do with the power weilded by, say, the Dept. of Homeland Security, or the American medical insurance industry (which gets its power through regulatory graft backed by political power and ultimately force). Forceful power, i.e. "power," is just not comparable to the "power" one gets by voluntarily trading with others.
It's silly to say your non sequitur is "well known" by "psychology" or "statistics" (what do those have to do with it, anyway) or "empiricism." That's nothing like my saying that something is "well known" to history. 20th century history is straightforward and direct (and relevant) in a way that psychology and statistics are not. We have tried big government management many times and it always fails. Look at the many communist countries that actually stayed communist (i.e. China doesn't count, but it's a shit show anyway). Look at fascist-nationalist command economies like the Nazis and today's Russians. Those societies and economies evidently do not work. (I would add, look at the outcome of the New Deal, but that is more nuanced.) There is no way a psychology paper could have that kind of evidentiary power.
When you say it: just spitting facts, being no-nonsense.
When someone else uses the same device to say the opposite: vile sarcasm which is not on-point or even funny since it is obviously false (you hold the opposite opinion so of course it is: it is self-evident).
Using the "same device" would be saying, "I think the opposite is self-evident..." and then elaborating.
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Sarcasm is when you repeat something without negating it, but indicating that you really think the opposite (negation). Saying “private sector management doesn’t work” and meaning it is not sarcasm.
"a sharp and often satirical or ironic utterance designed to cut or give pain"
I think the response I'm complaining about is satirical, so I think it matches sarcasm by this definition.
Anyway, even if hadn't been sarcasm, technically, it seems mocking and unkind. And it's not a big deal, but I think my response of "I don't appreciate that" was pretty tit for tat.
Where were you in 2008?
The government doesn't have a mechanism to self-regulate. Democracy was supposed to regulate the government, and probably can in small societies, or perhaps if formulated the correct way. American democracy definitely doesn't regulate government, and it doesn't self-regulate, so it's a system that's out of control.
You see the same mechanisms (plus others) in many societies in the 20th century. I don't see any evidence or reason to think the government can manage the economy. And a big part of the causal explanation is what I've stated above. Another is that the government isn't omniscient; it doesn't have enough information. Market solutions don't need to be omniscient and price serves to carry information.
As an aside, fun fact: Did you know that in the US, price controls are used by a government committee to set the price of the fundamental good, which is the US dollar? That does a lot to disrupt price as a signal of information. People think in the US we don't have government price fixing, and they are wrong. (I use the US as a pet example but I guess the above is basically true everywhere.)
China, on the other hand, as compared to the west, likes centrally planning things, but they can only lean on that opposing ideal so hard before they'd fail too, for reasons you have pointed out. Both approaches have yielded different mixes of central planning and bottom-up self-organization, and they're both necessarily mixes.
In the last 60 years, total fertility rate has dropped from 5 to 2.5 [2], and most industrialized nations are hovering right around replacement rate of 2.1 or actively shrinking (Japan, 1.4, Germany, 1.6, South Korea, 0.81). Albeit during COVID, the 2020 TFR in the United States was only 1.64, and has declined for the last four years in a row [3].
With technology, I'd still expect the overall "size of the economy" to grow, but it will be interesting to see how growth is affected by substantial changes in demography that play out over the next 100-200 years (if only I could stick around to watch!).
[1] https://en.wikipedia.org/wiki/Projections_of_population_grow... [2] https://en.wikipedia.org/wiki/Total_fertility_rate [3] https://www.nytimes.com/2021/05/05/us/us-birthrate-falls-cov...
It's going to take a long time before this change sinks in for people who are still used to worrying about overpopulation, outside of the fringe groups panicking over "white replacement".
Telling them "it'll cool off in 20 years" is about the equivalent of telling them "yeah the problems we have now will continue another 20 years, deal with it".
I can't recall the last time I came across the arguments you put forward, and I've hardly ever discussed this with someone expressing worry about overpopulation who has argued the problem is just that it's not flattening out fast enough. In fact, I often face people who insist I'm wrong when I point out projections show us heading for population decline.
I'm not suggesting people believing what you're saying don't exist, but in my experience at least they're not the ones yelling loudest about overpopulation.
That said, with respect to people worrying about it not flattening out fast enough, we'd face far worse problems if it rates started declining faster. We're already seeing pressure for higher pension ages to offset the coming decline in a working age population in many countries. Pressure for higher tax rates, longer hours, later pensions will come in short order if the demographic shift happens fast enough, and it will be massive unpopular.
Well you really only need a small number of very talented brains. And continuing to grow the global population is probably not the most efficient way of getting them.
I find it almost aggressively misanthropic. That most people on the planet are basically there to serve an (unchangeable) percentage of those who have the luxury of thinking about abstract concepts all day.
Things like the Pareto principle suggest our ability to do science is greatly impacted by raising the total population and creating more outliers who do extreme contributions.
It could be argued that building high speed rail isn’t same as doing science. But it does provide excellent raw material for scientific research. I won’t be surprised if we start seeing scientific breakthroughs from China in next few decades.
We have hundreds of millions of people using most of their cognitive bandwidth just to survive. Imagine what’s possible if even a fraction of those stop worrying about their survival and start pursuing their curiosity.
I might point at the fact that tenure-track professors are 25 times more likely to have a parent with a PhD than the general population (https://osf.io/preprints/socarxiv/6wjxc). Also, here's a good, factual article illustrating my general point: https://www.nature.com/articles/537466a
Reading between the lines, I think your view is that the valuable contributors (the extreme outliers) will find a way to contribute regardless of background. I think that's true, to some extent, but less common than we give it credit for. I also think that ignores the majority of scientists who are not outliers but make important discoveries just as a matter of course. Discoveries that may inform future breakthroughs.
Anyway, the truth is certainly somewhere in the middle. By growing the population of people who might make contributions (one way or another), we will increase the rate of contributions. I just think it's best from a moral, social, and ecological perspective to make the most of the minds we already have.
This is you reading in a total strawman.
There aren’t billions that would engage in science — there’s only 800 million in need of food security, total.
Of those, we’d expect only some small fraction to engage in science at all — maybe 8M, of whom a few hundred thousand will make substantial contributions and a few thousand groundbreaking work.
Of course we should help those people — but you’re off by orders of magnitude on your claims. I was objecting to your made up numbers, not whatever “between the lines” nonsense you read in to ignore that point.
And driving a total increase will require more people — because increasing the world by 2B population will drive more results than those 800M ever could. (While also being more realistic than “fix poverty everywhere”.)
In order to solve problems you don’t need “more people”. You need “more people with good enough living conditions so that they can work on solving problems”. This doesn’t necessarily means increasing the total number of people. It could go down. As long as enough people went from dispossessed to good enough, that would be enough.
no, this isn't true, because randomly feeding people isn't going to just magically make them able to solve problems like fusion.
What is needed is productivity increases, from perhaps existing investments or new investments, which is then used to fund research work. This funding can come privately, or via public taxation.
The popular image of an einstein like loner working in their own garage, funded by their own wealth (or some sort of social security funding), and creating world changing tech is such a mythos.
So if you’re talking about a physicist, you’re talking about a tiny fraction. If you start talking about those who complete graduate studies, and the 1 in 100 of them who generates truly groundbreaking work… you’re talking about 1 in 50,000 or rarer.
https://www.aip.org/statistics/reports/physics-bachelors-deg...
It takes 30 days to occupy half the pond.
How much time is left until the pond is full?
----
In other words: when we'll reach the limits, we won't have a lot of time to react.
Your analogy is off by several orders of magnitude, which leads to qualitative differences.
The trouble with humans is, because of ready access to fossil fuels and non-renewable energy, we have been able to artificially (or maybe more accurately phrased "unsustainably") extend beyond the carrying capacity of our ecosystem.
Indigenous populations of the Americas had populations in the millions but never risked, at least in North America, systemic collapse because they largely lived sustainably.
Ironically it's precisely because Malthus was proven wrong that we are in trouble. We have way, way higher energy demands than can be reasonably sustained without relying on a non-renewable source of energy. This completely disregards the additional problem of climate change. This sets us up for a type of collapse that is not usually a problem for most species, such as your lily pads.
In our modern world you'd like to think that as rational beings we'd be conserving these unsustainable resources to fund "important" things - but no, we usually just release strategic oil reserves to try and game our political system... and we decrease the resource intake to reap short term gains.
Technological progress is the result of ready access to fossil fuels. That is it is the result of our prosperity not it's cause.
The reason Malthus was wrong was because ready access to hydrocarbons made the Haber-Bosch process possible and easily scalable. In a world without massive amount of hydrocarbons the Haber-Bosch process is never discovered. We know this because technological advancement trail energy discovery.
I highly recommend reading through Smil's Energy and Civilization to get a better sense of this.
We are like yeast brewing in a giant vat of malted barely, seeing a what looks like an infinite amount of energy, expanding well beyond the sustainable carrying capacity of the vat. Suddenly some yeast scientists notice there is a concerning amount of alcohol in the atmosphere. Yeast economist point out this is nothing to worry about because we have solved every problem in the past, so there's nothing to really worry about.
I also can't stand the "look Malthus, Hubert and Jevons were all wrong!!!", on the scale of a 200k year species, predicted the ended within a few hundred years is pretty accurate. We just have trouble thinking beyond the time scale of a few human generations.
Finally, whale oil is a terrible example of a transition fuel. We stopped using it because we ran out of whales, but so far we've never decreased usage of an energy source that was still available to us [0]. This is no different than yeast that will consume energy filled sugars until the poison themselves. But hey, at least we get beer.
0. https://ourworldindata.org/grapher/global-energy-substitutio...
This doesn't account for nations with ready access to fossil fuels who don't progress.
The technology to move beyond fossil fuels has existed since the 1950s. No new inventions are required. If our leaders decided today to migrate primary energy to nuclear power climate change would be "solved" within 20 years.
I think this is inaccurate for several reasons 1. it takes human and financial resources to build a nuclear power plants, which most countries don't have 2. using the current technologies, uranium would quickly become a limiting factor 3. developing new technologies take times. 4. electricity is only a small part of the emissions of CO2
> Climate change is a political problem
Yes, this comes from the perpetual growth ideology.
Technological progress is the result of ready access to fossil fuels. That is it is the result of our prosperity not it's cause.
I have also read Smil's Energy and Civilization and I have to disagree on the causal arrow direction.
Coal formed ~300 million years ago [1]. Anatomically modern humans have existed for more than 200,000 years [2]. Complex city-forming civilizations have existed for more than 5,000 years [3].
Chapter 6 of Energy and Civilization shows the dramatic shift in recent centuries: consumption of coal and later other fossil fuels underwent explosive growth only after the 18th century. This even though coal and oil were known to people thousands of years ago [4] [5]. Since people, fossil fuels, and civilization have existed in conjunction for several thousands of years, but usage of fossil fuels has become significant only in recent centuries, I believe that technological development is the proximate cause of fossil fuel usage. Once the early Industrial Revolution got under way it formed a feedback loop where technological exploitation of energy resources drove further technological development and energy exploitation. The early, inefficient Newcomen steam engine is a good example of this loop in action: its first successful application was in pumping water out of coal mines, to make more coal accessible [6].
[1] https://en.wikipedia.org/wiki/Carboniferous
[2] https://en.wikipedia.org/wiki/Early_modern_human
[3] https://en.wikipedia.org/wiki/Human_history#Rise_of_civiliza...
[4] https://en.wikipedia.org/wiki/History_of_coal_mining#Early_h...
[5] https://connect.spe.org/blogs/donatien-ishimwe/2014/09/18/hi...
[6] https://en.wikipedia.org/wiki/Newcomen_atmospheric_engine#In...
The principles of Western capitalism that drove growth for centuries are less and less reliable, so we need to adapt our principles.
Do they have access to different reports that suggest global warming won't be as devastating as the scientific consensus broadly predicts? Is it nihilism/sociopathy, aka I'll be dead by the time it gets bad and I can't feel any sort of connection/care for my offspring, let alone my fellow humans? At the risk of memeing, is there a project to build Elysium going on that us plebs don't know about and that's what SpaceX/Blue Origin is all about? I just find it hard to square what the current message is wrt to global warming, a message that appears highly credible to my lay understanding, with the behaviour of the people who have the power to help nudge the direction our society is headed. Does anyone else get this, or have thoughts on it? I am genuinely asking here, because I can't resolve the contradiction and it weighs on me.
Large disruptions always create opportunities for a limited subset of people to do even better at the cost of everyone else doing much worse. The billionaire class is doing everything in their control to be in that elite subset, and so far they've been quite successful at that and there really isn't any reason in sight as to why their approach is going to fail any time soon.
Elysium is made out of people who live among us for as long as it is advantageous to them to do so, who can pay reputation consultants to keep the mobs with pitchforks away, who are pouring their money and influence into promoting a culture that makes everyone feel like the elite deserve their exalted positions and that if you don't feel that way, you're at risk of losing your chance of getting up there to be with them. And making us feel like that chance is real, it's just a breakout app away, and you'd better keep playing the game or you'll be driven into medical bankruptcy and your kids will get shot at school.
Scientists claim the earth is warming
News organisations gain more traction on fear-based claims regardless of motive
Politicians need to express their utmost urgency on whatever the above mentions
And yet there's no actual consensus on a realistic action plan. Like preventing a homocide before it happens. What point is there in preventing something that might not actually prevent anything but make it worse. To carry on like nothing's happening is the most rational choice. Like the food shortage that didn't happen.
Best to wait and see what crisis is most real and most urgent to prevent
Shortages cause price increases. Price increases make it more economical to pay up-front costs to develop technology whose per-unit costs permit extracting a profit compared to competitors who are not as technologically advanced, who die out and are replaced by new competitors who buy the technology off-the-shelf and reduce the price further in second-mover advantage, back down to the now-lower per-unit cost. Eventually demand develops to the point where there is a persistent shortage again and the cycle repeats.
The question is, what are the theoretical limits?
Will we run out of oxygen? Unlikely, the CO2 we breathe out can be recycled back into oxygen. Water? Also unlikely, for similar reasons. Food? With hydroponics, we're no longer limited by the amount of land we have, and it's renewable. Energy? The Sahara is a vast, untapped source of solar electricity which we haven't tapped because a) transmission lines are too expensive and b) security is too expensive. When energy costs rise enough to make those costs economical, the free market will get the underlying infrastructure built, and then we're good to go.
So yeah, growth will continue.
Innovation can eventually be produced, but it's an accidental sub-product. Innovation it's not the metric that markets are optimizing.
Sure, markets pick up innovations when they are profitable. But not otherwise, and I'm doubtful if the market economy is actually a net positive for innovation. What is innovation if it means finding another way to sell you stuff you don't need anyway.
If you want to pick a civilization whose gifts weren't subsumed into a larger, still growing civilization, you'd have to pick, what, Atlantis? A myth? OK then.
This message brought to you by individuals who have a vested interest in seeing growth continue.
I think this bears repeating. It is counterintuitive and maybe even repulsive to some people.
> In fact, the greatest threat to long-term economic growth might be the slowdown in population growth. Without more brains to push technology forward, progress might stall.
It should be noted that the vast majority of human brains do not today get the opportunity to work with ideas or push technology forward. Many people don’t even get enough to eat or drink.
We have a loooong way to go on the basics of organizing human society before we need to worry about the intellectual constraint of total population size.
But yeah, I get your point. The fact that we still rely on sweatshop imports proves there's something wrong with our society.
And immigration is a good way to help keep the population of developed countries growing. There really isn’t any reason why we can’t tap into the incredible human resources available in the world if we try.
1. “People in developed nations don’t breed due to stress, but meh we can just replace them” is a monstrous way to think.
2. You can’t import people as replacements above a certain rate, because it’s the culture of the developed nation which causes the success — and without maintaining that culture, the benefits cease.
How do you know it doesn't have a lot to do with having two oceans to protect it, and bunch of things that happened 400 years ago to federalize it and create what amounts to a massive economic union?
How do you know it isn't one of those things where a little bit of growth magnifies over time if not disrupted by war, just as what makes SF special is that a little bit of growth started there, and the concentration of intellectual and financial capital attracted more intellectual and financial capital?
Both of those explanations have nothing to do with a hand-wavey claim of "the culture."
And what do you mean that immigration is "a monstrous suggestion?" It sounds an awful lot like you're equating high rates of immigration with genocide. What on Earth is "monstrous" about immigrants? And why is that monstrous, but gentrification of SF by techies not monstrous?
Really, this comes across as generic nativism.
I do think discouraging thinking of humans as resources is a good thing, even if this has the potential side-effect of making things more difficult for immigrants.
I agree with that. There's a famous rant by a Canadian comic/media personality where he quotes a government slogan "People are our most precious resource" and points out that Canada's approach to "resources" is to clearcut timber and strip-mine minerals.
But we're talking about having enough population to maintain an economy of ideas. If we're talking about "There aren't enough people willing to work as flesh-robots in Amazon's warehouses, or if there are, they refuse to work in those conditions so we need desperate replacements from other countries" there's a whole different conversation to have, and it isn't really about declining populations, it's about things like living wages, labour standards, unionization, and recognition that the end-game is not competing with immigrants, it's competing with automation.
Considering Canada's history with Uranium mining I'm surprised that they didn't bring that into the fold as well - it's a delicate subject since a large amount of the costs of unsafe Uranium mining were born out by indigenous peoples, but for how few actual mines there were a lot of people have died from health complications.
Companies have actively been trying to make intellectual and/or creative work streamlined so they can reduce risk factors and swap out the old cog for the new one. They benefit from the increased competition so long as we don't unite against the status quo, which is also why automation is a potential disaster if we don't rethink our ways.
This is not to fight against skilled immigrants making an effort to keep things at peace while carving out their place, no. But we've seen this scenario unfold a few times now with different things, and it turns out companies tend to be the main benefactors at the cost of everyone else already in the market, and quite a few people entering the market. That cost should be transferred to the richest people, not to the working class with less and less breathing room to spare. Both have to be tackled at the same time.
An idea which was not present in the comment originally replied to, but OK.
Can you explain what you specifically mean by culture if it differs from an alignment of personal with social priorities?
2. This has been a popular theory among the far-right and white nationalists lately. But I’d be interested to see any evidence that immigration has a negative effect on society, because it sounds fundamentally racist and wrong to me.
The secret to America's success has always been immigration, whether by violent colonialism, accepting of refugees from persecution or war, or inviting talented people to become citizens.
Actually, no. Every few decades, American has mostly shut-down immigration for a few decades. The last opening was in 1965.
The fraction of humanity in poverty has dropped as our population has grown — because those larger, more capable nations have more means to feed themselves and greater wealth to care for the poor.
A stall in population growth or a population decline runs a serious risk that our standards of living regress and those conditions worsen.
We need to maintain our growth to impact the issues you care about:
More people -> More wealth -> Less hunger
Most devs don't live in poverty, but most devs also aren't doing innovative work. They spend their limited intellectual stamina trying to make the boss richer, not modeling out a cancer detection algorithm.
There are still so many low hanging fruit that even simple technology can improve
To name a different example, management has absolutely exploded. It's arguable whether this explosion has freed up brains more, or instead sucked up brain power. Meanwhile, most management jobs do pay well, to the point it's hard to consider a manager living in poverty. Personally, I believe we could easily slash management in half, permanently destroying those jobs and the accompanied bureaucracy to free up the brains, but that would result in those individuals having to compete for different jobs, maybe even less desirable jobs which put them back into poverty.
Regardless, the point is poverty and freeing up brains for innovation aren't necessarily correlated or even causal. They can even be negatively correlated. Solving poverty isn't the only requirement to free up brains, if that is a societal goal. That's all.
99% of the actual, serious, important problems right now are really really simple and have really dumb simple solutions. Not always the exactly optimal solution but there's one there that will do 90% of what anyone cares about, which we can do right now, but haven't yet.
I think it's great that devs have a choice. They can work at a company and have a relatively steady paycheck with benefits or they can make more and go off on their own and assume more risk.
For example. The speed of light. How much brain power do you need to surpass that speed? Many limits are actual limits and if you think anything can be achieved just by surpassing it with technology, then I think you're not looking at the problem realistically.
If you look at the amount of progress for the last 3 decades we are literally in the same place. Still driving cars and riding trains. The only area with massive progress is IT, but every other technology (including IT itself) looks like it's hitting some sort of hump in the curve. This is despite the increasing normalization of IQ scores across the world. On average, A person with 100 IQ today would have a higher IQ then the past.
Something like fusion which is the biggest technology changer I see on the horizon still requires targeted a huge amount of government effort and resources to achieve. Such ventures are less likely to arrive purely out of the commercial sphere.
Not only do we need more brains, but we also need robust knowledge transfers between generations (between current and new brains). I.e. for new brains to be effective, they must start from the point that the old brains stopped.
As I see it the opposite process is at play. For example, cloud computing decrease the need to understand hardware/os. Or, outsourcing remove new brains from entering the knowledge accumulation pipeline.
This is why Boeing can’t build planes anymore:
They decided midcareer engineers were too expensive and their crop of senior engineers are aging out — so they no longer have the expertise necessary, due to outsourcing and not supporting their young employees.
In the early days of aerospace, the search space was mostly unknown and there were tons of companies investing R&D in a wide variety of designs. Huge amounts of human capital were invested, and as in all things, some designs worked, some didn't. Many companies went bankrupt.
Eventually we find some good designs and the risk/reward of searching the space further just doesn't make sense. Only recently with improved tech and ML/AI + simulation has the cost to search been reduced enough that it makes economic sense to try again.
When I went to uni (and I'm only 35 so I'm not talking about the 80s) we learned about low level data structures, I took a course in relational algebra, operating system design, assembly language - these were necessary (imo) broadening exercises that have enabled me to better understand how to make things work performantly at a high level. Now a company may only need one or two folks like me with a passion for algorithm design among a dev team of fifty - but we don't all need formal training in every little thing.
Imparting the knowledge of how to learn, along with those pieces of basic information we deem critical, can be enough.
Nurses and doctors are all facing mental health crises. Violence against medical professionals is rising at rapid rates even prior to the pandemic. Many health professionals don't report assaults either because of their altruistic tendencies. More than half of nurses are thinking or planning on quitting their jobs. More than half of all doctors wouldn't recommend or don't want their children to go into medicine. Here's a fun little excercise for you. Google the nearest hospital near you and see how many openings they have. Especially for security. The hospital near me has never had a security officer. Now they have five. Hospital workers are being taught de-escalation techniques and taking self defense classes. Senior homes are facing record shortages of labor.
Who'd you rather have treating your loved ones? The nurses with decades of practical experience, or the nursing school graduates who will quit after 3 years of burn out and stress? We're starting to treat nurses as badly as we do teachers. What do we expect to happen? This is just one industry as well. A few fun links for your perusal.
https://www.forbes.com/sites/jackkelly/2022/04/19/new-survey...
https://www.ajc.com/pulse/survey-shows-90-of-nurses-consider...
https://www.benefitnews.com/news/nurses-are-planning-to-quit... https://www.aacnnursing.org/News-Information/News/View/Artic....
I would not describe relocating billions of people hundreds to thousands of miles north, often across country borders, as easy.
This article contains some stories of a few climate refugees of today:
https://www.nytimes.com/interactive/2020/07/23/magazine/clim...
Natural resources aren't limited to materials, natural processes also qualify. So it is also with fresh water... we won't "run out" of water, but we are exceeding the water-recycling capacities of the biosphere and thus this absolutely essential natural resource is becoming quite scarce in a lot of places. Theoretically you can replace it with artificial processes (desalination, treating contaminated water, etc) but to do that on a scale that can replace that natural water cycle is completely beyond our technology for now.
> "But the deeper reason is that there’s really no such thing as a natural resource. All resources are artificial. They are a product of technology. And economic growth is ultimately driven, not by material resources, but by ideas."
Arable land - i.e. topsoil - is not a product of technology, it's a product of geology and biology, namely the erosion of rocks and the accumulation of biomass. Yes, one can indeed make an artificial soil-like system (hydroponics), but this in turn requires raw materials (typically clay pebbles, plastic pots, plastic pipes, plus a complete nutrient mixture of simple chemicals) which are in turn made from limited material resources.
Similarly, fresh water is a limited natural resource, and in the absence of water, human populations do not grow. Just look at a population density map of the United States - note how few people live in the desert zones. Again, there are technological approaches: desalinate ocean water, pump it to the desert, and grow food hydroponically. This requires an investment of material resources and energy.
I get this feeling that economimsts who makes these claims about infinite growth have simply never studied the conservation of energy, or the conservation of mass. Every source I've looked at puts the minimal land area for food production for one human at about two hectares with traditional agriculture, and maybe half that with modern industrial double cropping methods. US farmland is about 166 million hectares, so that sort of fits, as the US population is about 330 million; exports of food also appear to match imports of food so that's a wash.
So clearly there are limits on the growth of the human population on a finite planet. If the question is, "can you have infinite economic growth with a fixed human population", well, whatever discipline makes claims like that is one entirely divorced from physical reality. Inflation maybe?
The earth has a lot of matter in it - it is absurdly massive - technological advances in replicating necessary raw resources (and your topsoil one is particularly good to demonstrate this) have pushed us from looking at an absolute limit to instead viewing the perpetual creation of new components as a steadily rising economic burden.
One raw resource that is actually quickly depleting is river sand for concrete - our current consumption trends are extremely scary here and some governments (CoughIndiaCough) are doing an absolutely terrible job at properly enforcing externality costs on extraction leading to mass habitat destruction. But, if we suddenly found ourselves without easy access to rough river sand we do have alternative construction materials including processed wood in various forms that can be extremely resilient.
I don't really like the wording of the article in defining all resources as artificial - but the natural components driving the economy are quite abundant.
defined narrowly, yes, most of them, but consider ecosystem services as equally important economic inputs and the picture looks very different
on this view things like stable weather patterns etc are also natural components driving the economy, and we are rapidly rendering this and many others scarce
This isn't really true any longer. Desalinating seawater costs about $1 per 1000 liters. You need a relatively prosperous country to be able to afford that, of course, but an industrialized economy with reasonable levels of corruption is perfectly capable of desalinating enough water to make civilization work.
It's practically tautological that there's limits to population size in a finite world, and that growth cannot be infinite in a finite universe. But I think people often frame this question the wrong way. It's a bit of a straw man.
Economic growth is proportional to the amount of problems solved that humans care about. And the cost of the solution, of course, in terms of human effort. It isn't necessarily proportional to the amount of physical resources consumed or bound. It's a reasonable assumption that there's generally a positive correlation, but the function and coefficients don't have to be linear. That leaves a lot of headroom.
People should rather think about infinite (arbitrary!!) economic growth in terms of what can be done to make the lives of humans better, on average. Even in the Western world, we are so far away from the hedonistic limits that it's ridiculous. It's trivial to imagine a world with no illness, perfect health, indefinite lifespan, very high freedom and low repression, no seriously bothersome and mandatory chores for anyone and so on. What can be done to get closer to such a world? So much.
The limit isn't defined by how polluting our cars can be, or how much beef we're able to produce. Many of these arguments collapse into the completely unimaginative.
Ah... so if I'm in the middle of the Mojave Desert, and have no water, but I do have a dollar in my pocket, someone will deliver me 1000 liters of water, sourced from desalination of Pacific Ocean water? How much energy will that take?
It's the approximate cost, in aggregate, for supplying a city's worth of water using desal, after having made the infrastructure and such. If solar and other renewable energies could be scaled higher, this cost might be even lower.
When it comes to resources, humanity doesn't have much a track record of doing so.
You yourself said that technology doubled the output with the same input.
The whole articles point is that tech enables us to get more from what we have, to support growth. Maybe enough smart Americans will find a way to double it again, so the US can support 660M people with our 166 Hectares. Maybe then we’ll support 1.2B after a new invention!
Maybe they’ll discover a way to grow plants with salt water allowing use of the ocean while saving the freshwater. Maybe then they’ll find a way to make hydroponics less material intense, and they’ll build floating farms on the ocean, giving us more “land”. Given enough smart people, there’s so much more room for growth. That’s the point. We’re not at the breaking point yet.
Ideas are an abstract thing. To realise an idea, one needs material resources.
The problem has nothing to do with either finite material resources or ideas. The problem is what those material resources get converted into. What we do is we transform one type of material into another during any activity. How we can limit ourselves to not transforming these useable material into unuseable material is what is the challenge for growth. We should only be promoting those ideas that have a better opportunity to transform one usable material resource into another usable resource without taking much time and without harming the ecology.
This is quite insightful. Biological systems have this characteristic. It uses the circular conversion of resources as a way to channel energy into whatever is useful for it.
Humans beings, as a type of biology do this, but have for a few centuries been converting a useful material (fossil hydrocarbons) into a comparatively useless material (C02) at rate faster than the ecosystem can reabsorb it.
The question is how we can return to something like the previous equilibrium where we rebuild our modern lifestyles around energy "springs" - aka energy storage and release mechanisms - that absorb and release it to do useful work for us, alleviating the need to burn and release long fossilized energy to achieve that.
also related to circular economics is the principle that tools should be easy to supersede when we discover undesirable side effects or invent new techniques
we build software to be easy to refactor, we might benefit from building societies and technologies with this in mind as well
an atmosphere full of carbon is not easy to deprecate, nor are pervasive hydrocarbon infrastructure, urban areas designed around the automobile, etc
before we deploy something at scale it may be wise to have some idea how to gracefully roll it back or put something else in its place
Back in the trenches, I'm thinking that people making "have a baby, or not?" decisions will not find "But you could have a SuperBaby!" to be a persuasive argument. Without plot armor, who's magically making sure that SuperBaby doesn't have some grim bugs, which might take a while to manifest? Any good reason to think that SuperBaby will need fewer diaper changes and less parental resources long-term? Will want to look after his or her non-Super "parents" in their old age? Or that the currently available version of SuperBaby won't be obsoleted by v2.0 in a year or two - with upgrades to v2.0 being "less than practical and satisfactory"? Really, it'd be smarter to wait until v2.0 comes out...wait until v2.4 comes out...until 3.0...wait...still waiting...still waiting...
https://en.wikipedia.org/wiki/He_Jiankui_affair