3. is more like this: You've been through 2. so many times now that it is hard to get excited about new things anymore.

Enough time has passed that some of the things you've been excited for have failed or had negative consequences. You'll stick to the things that worked in 2. and are skeptical of things that have yet to prove themselves.

In your 3., things from 2. are accepted unconditionally despite failures, making 3. inherently irrational.

> 1. Anything that is in the world when you’re born is normal and ordinary and is just a natural part of the way the world works.

> 2. Anything that's invented between when you’re fifteen and thirty-five is new and exciting and revolutionary and you can probably get a career in it.

> 3. Anything invented after you're thirty-five is against the natural order of things.

My experience is rather that early in your life you get "imprinted" with specific values, and then you judge technology by how it fits these values:

For example, I was "imprinted" against surveillance since I was born in West Germany, and people were telling me what evil surveillance stuff the Stasi does in "the other Germany (GDR)". Also I deeply detested authorities (I was likely born this way), and thus got attracted to hacking.

Thus, for example:

I already heard about the internet early in my life (from magazines) - say, when I was 8 years old - but I actually saw how people organized stuff "offline" against what I would consider "how the world naturally works" (believe it or not).

Smartphones were invented when I was between 15 and 35, but I immediately saw them as surveillance bugs. The same holds for the advent of social networks.

On the other hand, 3D printing got mainstreamed later than when I was 35, but I immediately got in love with it, and couldn't wait the day until 3D printing got more reliable and I earned enough money to get a 3D printer, since 3D printers fit my values very well.

So, in my experience it is typically not about the year when something was invented, but rather about whether the invention is a good or bad fit for the values that you were shaped with in your early life.

How was that guy SO creative and talented on that? Truly a treasure.

Anyone can recommend books/movies with a similar style?

I used to be a "tech guy" (like most people here probably) and was excited about new technology. Now my main feeling when something disruptive (like AI currently) comes up is: "why the hell do people need to rock the boat".

The thing is, I'm perfectly happy living my life as I have been living so far, concentrating on doing stuff with my children and having fun. When the world changes, stuff I need to worry about it: is this going to affect my job in the future? What is the long term effect of exposing my children to this? Is the stuff I teach my children going to be relevant in the future after this disruption has happened?

I don't want to be forced to learn new stuff. I mean, I can learn new stuff occasionally for fun, but it's not fun if my life and salary depends on it. Fuck the tech bros trying to change everything up.

> You don't see no loud mouth thirty-year old motherfuckers

It's well documented that as we age we tend to be more conservative, less open to new ideas and more risk adverse. That encompasses anything from work, hobbies, social relations and even politics.

There's also another major factor behind age. As we get older our responsibilities grow while our time and energy budget shrinks.

E.g. I have always wanted to start my own company, and now that I'm at the peak of my capabilities and in the strongest financial situation I've ever been I just don't feel I have the energy and resilience I would've had a decade ago, when I was younger and more naive.

Ancel Keys is known for really hating the "sugar is problematic" theory and sinking careers of younger nutritional scientists who dared touch it for decades.

Sen. Richard Shelby was a huge hater of the "orbital fuel depot" concept and it only started being developed further once he retired and didn't hold sway over the American cosmic sector anymore.

In today’s fast-paced scientific landscape, it’s crucial to recognize that innovation is not just about ideas — it’s about access, infrastructure, and thought leadership.

Einstein disrupted the status quo, but today’s emerging researchers must first navigate a robust ecosystem of grants, incentives, and legacy stakeholders before they can move the needle.

Food for thought.

/s

It seems to me that being young and stupid has the advantage of making people hungry for success damn the consequences in a way that is more subdued as we age. This partly is a thing of biology, I think, and partly a thing of understanding consequence.

And of course if you haven't read that book, it's insightful and easy

It seems appropriate to also recognize that it's simply tiring to be to be in constant opposition to most of the social environment, and most people can't keep doing it at undiminished intensity for a full lifetime.

The disruptive part of the startup ecosystem kinda runs on that, right?

It’s like being a billionaire; you stop getting “no, that’s stupid” feedback and it rots your brain.

Indeed, its a pretty easy case to make the Einstein has more to do with QM as it currently exists than Bohr does. The major interesting work on QM after the 1960s or so is entirely dependent upon Einstein's work on QM and locality. The entire narrative in fact comes from Bohr's hissy fit after Einstein pointed out that QM is non-local and that seems very wrong.

Like we have formulas describing how gravity works. We can test these formulas by observing the motion of the planets and galaxies. Is this theory true? There's lots of evidence for it so it feels like it's gotta be pretty close to "the truth"

We also have formulas describing how elementary particles behave. These formulas have been tested to a very high degree of precision so it seems they've got to be close to the truth as well. But if you use both our formulas for gravitation and formulas for elementary particles you can derive a contradiction. So these two theories cannot simultaneously be true. There's got to be something wrong with them.

I suppose there's the possibility that at a certain point nature simply doesn't follow any laws and you can't possibly make sense of it.

[1] https://backreaction.blogspot.com/2020/07/do-we-need-theory-...

So yes there is a solution, but do we, as humans, have the ability to come up with it, who knows. I would say it's unlikely.

Veritasium tries to uncover all the story of the myth of old demented Einstein who was unable to accept QM. And it seems to be a very unfair myth. They say "the history is written by victors" (in this case by Bohr), and I tend to agree.

> Did Einstein ever say that QM is non local, and therefore it is wrong?

Well, kinda, but not exactly. He said that Copenhagen interpretation of QM is non-local. Not QM itself, Veritasium cites some Einstein's letter to Bohr where Einstein explicitly accepts the math of QM, because it works, but opposes "spooky action at distance". Should we interpret it as Einstein claimed that QM is wrong? I'm not entirely sure, he hoped that if they fixed that non-locality thing of QM, they will be able to bridge QM and GR. (Probably, his previous experience of fixing non-locality of Newton's gravity led to this prediction.)

You see, Einstein had one wrong presumption. He thought that if QM non-local then it would lead to contradictions. But it turned out that it doesn't lead to contradictions: a measurement and a wave-function collapse lead to non-local consequences, but they cannot be used to transfer information. So no contradictions. Despite this wrong presumption, I didn't hear Einstein saying QM is wrong, he was pretty careful about what he said, and you'll probably can't catch him on a single wrong claim. He pointed to non-locality and said "it smells". He proposed hidden variables as an alternative removing the smell. It is all. None of these claims were wrong.

I believe he was seeking some thought experiment that can show contradictions, but he failed. But he had found experiments that can show non-locality without any doubt.

> maybe focusing on what their thoughts about locality were could be missing the forest for the tree.

I don't think so. It fits perfectly. Einstein spent ~10 years fighting gravity, mostly due to the reason of non-locality of Newton's gravity. Non-local gravity couldn't work with relativity, it leads to contradictions. Einstein fought non-locality for 10 years, and it fits perfectly that he noticed non-locality in quantum-mechanics instantly, when others didn't (it was even not because Einstein was a genius, he was just primed to non-locality and highly sensitive to it). It fits perfectly that Einstein was very concerned by it and sought ways around it.

For example he proposed hidden variables as a way around it. Just think about it: his hidden variables didn't try to make quantum mechanics into a deterministic theory, values of hidden variables meant to be non-deterministic. Eistein tried to make QM local, by fixing hidden variables way before "wave-function collapse".

At the same time your claim that Einstein was against non-deterministic nature of QM, doesn't fit facts, AND it fits perfectly with people not really understanding what Einstein think is wrong with QM. Bohr had written an obscurantist's answer to EPR paper, in which he claimed that he won the dispute, but I'm not sure there was at least one person who really understood how. This smog of war naturally leads to people hypothesizing and coalescing to some easily understandable hypothesis. And hypotheses of Einstein's aversion to non-determinism is an easily understandable hypothesis.

So my (probabilistic) judgement is: the story told by Veritasium is highly probable. It relies on some sample set of facts. The sample can be non-representative, but the whole story fits in a way that I don't believe anyone can fit artificially, even if they tried really hard.