This is not the case, the famous (if apocryphal) quote of "everything that can be invented has been invented" made in 1900 by the head of the US patent office was clearly wrong and made either in jest or due to an enormous lack of imagination. The point is that there is always more to invent and the possibilities keep increasing.
There are plenty of inventions yet to make, from complex AI enabled devices down to the simple mundane items that make daily life slightly easier. I founded a company based on the latter that is ticking over nicely.
By saying that it is harder to invent things now shows you have fallen into one of the traps that the author highlights:
> If you have never seen rope, it actually doesn’t occur to you that rope would come in handy, or to ask yourself how to make some.
You have never seen the thing you need to invent so it takes either a leap of inspiration or a concerted effort to sit down and think of something new to solve a problem you have, chances are you will get their iteratively over a long time and not really see what you have made as "an invention".
Ideation isn't some spark that hits you, ideas need to be thought about and created with effort.
>This is not the case, the famous (if apocryphal) quote of "everything that can be invented has been invented" made in 1900 by the head of the US patent office was clearly wrong and made either in jest or due to an enormous lack of imagination. The point is that there is always more to invent and the possibilities keep increasing.
Just because somebody said something that was wrong 100 years ago, doesn't mean it's also wrong now.
And there is such a thing as "low hanging fruit".
We have absolutely no contract with the universe or nature that guarantees us that there's "always more to invent", even less so that "the possibilities keep increasing".
> Just because somebody said something that was wrong 100 years ago, doesn't mean it's also wrong now.
That is absolutely true. HOWEVER, if one notices that those in the past have made the same observation as oneself but were wrong every time, one would be wise to VERY carefully reexamine one's own position. This is good, solid evidence that one might be mistaken
are you calling inventing flight low hanging fruit? I'd bet even after given the answer and reading up on wikipedia, you would struggle building a plain from scratch.
its not harder to invent things, you just dont know how to do it. its not a problem on you, I couldnt invent anything myself. if anything, we are in a golden age, much like people ~1900 were when it comes to invention. the scripting languages, algorithms, computing power at my finger tips gives me incredible power.
sadly, I didnt think of making a crypto currency ~2009. I didnt think of creating a ride sharing service, selfie drones, or fidget spinners. well actually I did create a fidget spinner with my roller blade bearings back in the early 2ks, but I didnt think anything of it.
point is, we take for granted all the stuff that is available to us now, and there are plenty of stuff (even low hanging fruit) to invent, its just very hard.
I think a lot of people think of inventions but don't have the motivation or resources to execute - and someone else creates the thing, possibly with roots deep in the past. I remember reading a magazine article (maybe in Popular Science) about the Peltier effect when I was in high school and thinking it could/should be used for cooling CPUs. In practically no time, the Power Macintosh 8100/110 came out, using such a cooler. It may not have been the first, but it was the first I was aware of, and it made me irrationally feel like someone stole my idea. A year or two later, my boss at my first job asked me to create, essentially, eBay. I read some academic articles on computerized auctions and gave it up as too complicated.
One thing that made a great impression on me was reading an old Dr. Dobbs journal (I think from the 70s) in which someone was angrily responding to Bill Gates. Gates had said that hobbyists generally steal their software, and of course that pissed people off. The letter writer said if you want to be paid for your software you should bundle it with hardware. So with hindsight, Gates became a billionaire not because he had a unique idea, but because he recognized the value of something lots of people knew and executed it.
Thinking of things is infinitely easier than sifting through all the noise and then committing 100% to making something specific a reality.
Flying is low hanging fruit, i can explain the core concepts of how it works to a 8-year old child with a paper airplane in 10 minutes. Execution is still tricky but you know that it can eventually be done with enough effort, material and machinery. AI or crypto-currencies though, is har to explain even on a high level to my computer science educated friends.
I think the final chapter, Orders of Inovation, in the original post is on the right track. Today there are less of the first order inventions but there will be more and more of the third order inventions that build upon existing inventions.
The space of inventions increases exponentially with every new piece of knowledge, insight, or tool we produce. Are you asserting that this space becomes so sparse that we will no longer have any useful inventions?
If this is the case, why have we seen an explosion in inventions? Is there some critical turning point? When is the critical point? It's a lot of speculation.
As depressed and lonely as I am, I live because I believe the future is worth living for, mainly because there's stuff left to do. If there's nothing left to do, we may as well all die today.
>The space of inventions increases exponentially with every new piece of knowledge, insight, or tool we produce. Are you asserting that this space becomes so sparse that we will no longer have any useful inventions?
I'm saying that the previous assertion is more religious speaking than valid reasoning.
We can find new knowledge, insight, and/or tool without increasing the "space of inventions", much less exponentially increasing it.
Some fundamental types of new knowledge do increase the space of inventions (e.g. the discovery of fire, or the discovery of electricity, or the discovery of dna, etc), but not all.
>The space of inventions increases exponentially with every new piece of knowledge, insight, or tool we produce. Are you asserting that this space becomes so sparse that we will no longer have any useful inventions?
If we are just living because there's stuff to invent, we might as well, as this means inventions are inherently useless (else what we have already invented would be enough to make life worth). Life should be celebrated (or not) for itself, not because we can create new gizmos and find new natural laws.
Suppose you have a list of N things you know, and we define an invention as being any subset of those things. There would be 2^N possible combinations, or the size of the set of all subsets, or the size of the set of all inventions.
That's my toy-definition of an invention. Not very good, but it's a start. Let's take it further and say that each item in the list of knowledge is actually a basis vector, and that an invention is simply a vector in the space spanned by the basis set.
> We can find new knowledge, insight, and/or tool without increasing the "space of inventions", much less exponentially increasing it.
In my model, I will prove this is impossible. The dimension before finding the new vector is N. Suppose we find a new knowledge vector k'. If it is truly new, then it will be orthogonal to the other knowledge vectors, and the new basis will span N+1 dimensions, meaning the "space of inventions" increased. The only way for the dimension to remain the same is if k' could be written as a linear combination of k_i, which would imply that our assumption that k' is new was false.
> We have absolutely no contract with the universe or nature that guarantees us that there's "always more to invent", even less so that "the possibilities keep increasing".
Think of human knowledge as a circle. The edge of that circle is the edge of human knowledge. Inventing a thing makes a little bump in the circle that pushes the edge outwards. The bigger the circle, the bigger the circumference, the more possibilities to invent something.
That's just a metaphor, and exactly of the type which GP argued against.
To illustrate GP's point metaphorically: Think of human knowledge as discovered areas on a map. The dark areas are what is still unknown to us. Inventing a thing makes a little spot on the map visible. The more you have discovered, the less you still have to discover.
(And to extend it a bit: Of course you can make the already discovered areas more detailed, even to levels unthought of when initially discovered. But as discoveries pile up, there probably won't be many 'woah, there's a whole continent here!' moments anymore.)
I don't have a strong opinion in this debate. I just wanted to provide a counter-point to your metaphor.
You are both right. Animal reproduction is exponential as long as resources are freely available -- the more animals you have, the more they can mate. Like the parent post, the greater the perimeter of your knowledge, the greater the boundary you can now explore from.
Once animals hit the resource limit of the environment, the exponential curve flattens out. Like you note, the more of the map you cover, the less there is left to explore.
The interesting question is how big is the map and how close are we to reaching it's boundaries?
Personally, I think it is effectively infinitely large. If you consider "discovery" to include new combinations of existing things, then you're talking about permutations. If our universe consisted only of 52 playing cards, there would still be 80,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000 different ways for us to discover that they can be shuffled together.
Ok, now postulate that we can only invent things on the border of that map (because of technological limitations). Then you'll get a very complex dynamics, of the invention possibilities increasing and decreasing, some times fast, and changing almost unpredictably.
La Bruyère in 1690 wrote a very famous phrase "Tout est dit, et l'on vient trop tard depuis plus de sept mille ans qu'il y a des hommes et qui pensent." (Everything has been said, and we're too late after 7000 years of human existence and thought.)
I can't find the quote right now but Aristotle complained once that the level of comfort attained in his era and city was so high nobody would ever conceivably want more.
It's fairly obvious that the breadth of human ingenuity is infinite and that there are orders of magnitude more inventions to make than have been made.
Not all inventions are useful; one could argue humanity would be much better without television, Facebook or nuclear bombs for example. But one just needs to look around to see how our world is inadequate and broken.
Take transportation: today we use huge metal cages (cars) or metal tubes (planes) to move a bunch of ape-like creatures from one place to another, at great expense and risk. Why can't we fly? We say we fly when we're in a plane, but we don't; we are flown. I want wings (or something) that let me take off and land using my body's energy, just like a bird.
I don't know if individual flying can be achieved using genetic engineering or by building a contraption that one can operate with his arms or legs, etc., but I do know that cars / planes / boats / etc. are a ridiculous and laughably overkill solution to the problem of personal transportation.
Well, leaving aside the problem of taking off (which today is improving thanks to electric motors), I guess one could say that gliders[1] are the closest we can have to human-powered flight and it's highly efficient in terms of energy consumption
> It's "not very good" not because people are this or that...
Denying reality is for daydreaming; it will not get anything invented. Sufficiently advanced technology may be indistinguishable from magic, but it isn't actually magic.
If you want actual wings, that's just one of those problems that need absurd amounts of money and brains to figure out. Genetic engineering is certainly a lot more difficult than inventing Nitrocellulose.
I'm aware of the existence of bicycles. They are not as useful -- or fun -- as the ability to fly would be.
I don't understand your point at all. When something sounds far-fetched / difficult / expensive it means it's actually more interesting rather than less.
My point is that this thread started with the assertion that all easy inventions are already gone and it takes a lot of effort to invent something novel. You countered with flying via genetic engineering, which to me doesn't sound like something reasonably simple that hasn't been invented yet.
Oh, ok. I was concurring with the comment that said "There are plenty of inventions yet to make" and not really voicing an opinion about their difficulty.
However, after rereading it, I disagree with the top comment that said that "Centuries ago, it was easier to think of things to invent".
It's never easy to think of something to invent. Finding the problem, even just thinking there might be a problem where noone sees any, is a big part of any invention.
Also, in the past, inventions required a much larger leap of thinking than today. When we speak today about growing wings on creatures born without it, we kind of accept the idea, because we know it's already possible to grow eyes on flies' legs for example.
But inventing the steam engine, or disproving "spontaneous generation" and inventing vaccines, sound to me much more impressive because those people went where no one had dared go before them.
Easy is relative. So is "invention". I invent things most days of my life, but they aren't that novel.
People are crazy inventive and always have been. But today, it is far easier than it ever was before to learn about the best inventions others already figured out instead of reinventing the wheel.
New inventions are likely to require more specialized training. The days of a Benjamin Franklin inventing bifocals despite not being primarily an expert in optometry are likely over.
> I founded a company based on the latter that is ticking over nicely.
I'm curious: How much does your company's product rely on materials that either didn't exist 20 years ago or were significantly more expensive to procure in small quantities 20 years ago?
I ask because I have a hypothesis that a lot of things that seem like low-hanging-fruit that should have been invented earlier actually depend on the abundance of materials and manufacturing processes that only became common 20ish years before the invention.
The product would not have been possible 20 years ago as the fans would have konked out due to the heat, and the plastic would have yellowed and gone brittle also due to the heat.
So we needed materials science improvements to make the product viable. I don't think I was advocating for low hanging fruit but instead progress in various fields allow other things to be invented, some of them I guess become low hanging fruit.
Heat resistant suggests a higher melting point, it is not necessarily flame retardant. The yellowed plastics on old consumer electronics aren't specifically heat resistant.
Actually, my personal experience includes a ton of examples of:
1. I realize the need for something and envision a novel invention
2. I discover upon research that it has already been invented
So, I did have the thought about the "thing I've never seen" and could pursue inventing it. But it's a big world and far easier than ever before to learn from others.
I have known people who went all the way, finished inventing something and got it patented, and then I (as a patent critic) have doubts that it's truly novel and then discover, to the surprise of my inventor friend, that it actually was invented before but was obscure and they hadn't heard about it.
There's tons of room for invention still, but it's comparably much reduced from the past for all the basic stuff and far easier to discover existing inventions. It's just NOT anything like it used to be.
It's a very long way from putting a 1500mm lens in a pocket camera, but it looks promising. Of course, it could end up being the fusion reactor of optics: always a half decade out.
I've recently gotten into amateur astronomy. The modern high-end telescope eyepieces, usually low-power with a really wide FOV, often now have 7 or more lenses and can weigh 2 pounds.
This research looks amazing. It could change the game once again, enabling even higher quality and wider FOVs in a broad range of focal lengths (from what I've read, there has been a lot of improvement in the past few decades already). Probably won't be cheap though.
There are plenty of inventions yet to make, from complex AI enabled devices down to the simple mundane items that make daily life slightly easier. I founded a company based on the latter that is ticking over nicely.
By saying that it is harder to invent things now shows you have fallen into one of the traps that the author highlights:
> If you have never seen rope, it actually doesn’t occur to you that rope would come in handy, or to ask yourself how to make some.
You have never seen the thing you need to invent so it takes either a leap of inspiration or a concerted effort to sit down and think of something new to solve a problem you have, chances are you will get their iteratively over a long time and not really see what you have made as "an invention".
Ideation isn't some spark that hits you, ideas need to be thought about and created with effort.