Einstein's Greatest Legacy: Thought Experiments

I guess it is in this context that we can agree with Einstein: "Imagination is more important than knowledge." it is the way of computing in Feynman's scientific method, and yes, it needs verification against experiments.

I've struggled for years to truly understand deeper physics instead of just sort of understanding. Listening to her explain and along with the graphics have made sparks of understanding bounce around my brain for the first time concerning these topics and it fills me with happiness.

Galileo used thought experiments long before Maxwell or Einstein. And less famous people probably used thought experiments long before Galileo.

3:06 excellent hand-arrow coordination 😁

This video is really excellent, Sabine. You pulled all of those facts together in a way that made clear sense to me.
You are a wonderful teacher. Thank you!

Thank you for this and all your videos! They are helping me understand topics that I’ve been curious about and puzzled by for a long time.

Necessity might be the Mother of Invention, but I'm thinking Imagination must be the Daddy.

Love the dress.

Again a very interesting Video. Great, I‘m always waiting impatiently for the next one to show up

Excellent video! Thank you Sabine.

Thank you, again, for a fantastic explanation.
This is of the best science channels on TH-cam.

Sabine, this was a great video and once again points to Einstein's great mind as being mind-blowingly fascinating. Great dress as well.

Cheers Sabine, love your videos.

Great video, Sabine. I very much enjoy your series. Thanks.

Your visuals are so great!

so good! You make everything seem so straightforward. Superb pedagogy

Can't wait to hear u on PBS spacetime theory of everything webinar, Sabine!!!!!

Well done. I would not believe this all could be explained in 7 minutes.

The downward arrows moving in sync with your hands was a nice touch.

Hello there Sabine. Excellent presentation, thank u.

Always so intresting and clear.

Really interesting! Thanks a lot! 😊

A gorgeous explanation on Maxwell's Demon.....thanks as always.

Beauty and smart co-existing. I am impressed past my 75 years. Thank you Sabine!

Great and Nice Channel... Extremely Useful... Thank You!

I have problems and so the outfits help me pay attention, and the accent helps me retain the information. Wish you were my lecturer.

Your animations are wonderful. They clearly illustrate what you're saying without distracting.

An outstanding presentation of the concept of the, Thought Experiment.

Neat! There are plenty of interesting thought experiments out there, especially around the counter-intuitive nature of quantum physics.

Underrated channel should have more subs

On PBS space time,you were one of the main topics today. To condense it,they say they dont waste time on "beautiful theories since no telling if they are right or wrong". A couple wanted a piece of you!..lol. They said they are looking forward to the next episode when you will be the star. I hope they meant Space Time and not some podcast we will never see.

Thank you, Sabine!

wonderful topic and great content!

"By imagination and reason we turn experience into foresight" -- Spinoza.

Love your stuff. Thanks.

Love the content!

Brilliant presentation Thank you.

Thank you for your efforts.

loved this video !!!!

Hi Sabine, Im really enjoying your presentations. Have you ever covered time travel? I’ll search your previous videos.

Great video. Before I studied physics I misunderstood what made Einstein a genius, like most people I think. After reading his original work I realised it wasn't so much what he thought but how he thought.

That’s a hell of a t-shirt!! Looking rather “pre-historic” especially with the cave-like background. Love it actually!

Great miss Sabine !

Also, opening the door requires work (at least in any realistic scenario). Adding work to reduce local entropy increases universal entropy so no law is broken.

You are a beautiful person, and I really appreciate your lectures. Thank you for your work.

I've heard plenty of people talk about general relativity being incompatible with quantum mechanics, but this is the first time I've heard an actual example of how, thanks!

I absolutely loved your book, and there are no words to describe how excited I am for your appearance on PBS spacetime! Eric Weinstein seems to share your criticism regarding the state of theoretical physics, and I'm super excited to hear Lee Smolins and your take on his ideas of spin networks that are similar to Smolins.

Experiments & Devices -That's what I say to Sabine !-Good video.

I was puzzled with the title of this video and immediately thought of Maxwell's daemon, even though the principle of though experiments goes back much longer than that, to at least the ancient Greeks (indeed, it was the only sort of experiment they did like). Einstein might have been the greatest practitioner, but I don't think thought experiments are his legacy in particular.

Einstein provided us with so much information of what cannot be observed.

My favorite thought experiment i have from a friend of mine:
Suppose the sun just disappeared. Like, completely. At once. What would we notice here at earth, and when? Light from the sun needs about 8 minutes to reach the earth, so it would still be totally normal here regarding daylight for another 8 minutes. What about gravity though? Would earth just instantaneously leave it's orbit around the former sun? Well, wouldn't that violate the law that information cannot travel further than the speed of light?`
From here it's just my own thinking. I think it would violate it. So consequently, earth would orbit around _nothing_ for another 8 minutes and Pluto would continue it's curve around the void for more than 5 hours. So the gravitational information must somehow travel from the sun to the planets...as waves?
My question is: have I just derived gravitational waves??

- Who is your tailer?
- Thanks once again for your enlightening spin on a physics subject. - However, loss of information is not a problem. I can demonstrate it in my daily thought experiments dealing with my day to day reality.
- I would expand on the subject but the cerebral energy necessary to recall that information appears to have been lossed somewhere along the way. I think it evaporated!

Hello Sabine,
I first read the word gedanken in Feynman's three volume Lectures On Physics when I was still in school aged 16 to 18 1969 to 1971 when I had that three volume set that I still have to this day. Feynman's own gedanken experiment was for electrons passing between two slits.
Peter Nolan. Ph.D.(physics). Dublin. Ireland.

There is a name for people who do "thought experiments" : mathematicians.

Highly competent explanation in best Raider outfit.

Good video. The entanglement breaks down the time, in which it runs, when it is measured, to the time in which the measurement is made. Different time scales and what it is inside, can live together, with no interactions? And the daemon does he have a mathematical function.

What about Galilei (friction, inertia) and Newton (imagine a projectile faster and faster)? Didn't they also get to their achievement using thought experiments?
Anyway it's cool they are still used even in the modern physics, maybe even more now when theories are harder and harder to be tested.
Thank you for your concise depth in every your video! You really put some... thought in it!!!

I just discovered Sabine.
It is the discovery of the century.

When Einstein once was asked for his laboratory he showed his pen.

The Maxwell's Demon story is a fascinating gedankenexperiment. I think I see your explanation, but it's still profoundly interesting. Perhaps the relationship between information (I) and entropy (E) can someday be put into a formula, like I = E c^2.

Looking forward to hearing you speak at the PBS symposium.

This is a truly exciting period in science, closing in on the ultimate secrets of energy and matter. So many great minds exploring the many aspects of nature at this level. Every idea and opinion represents a life dedicated to learning, research, pondering, experimenting, calculation, and debate. In a world awash with money, it is truly sad that science has to go begging for the funds drive the research forward.

I love that little smile at the end. 😉

Physics was never my strength, so I will appreciate any feedback about a couple of questions.
1) Maxwell’s demon: wouldn’t the demon be doing work? If so, would that not be sufficient to explain the decreased entropy? Wouldn’t that also preclude the experiment to being tantamount to a perpetual motion machine?
2) Einstein’s elevator: when we stand on the Earth, we experience a constant attraction to the Earth. That attraction is not increasing at a constant acceleration as in a free fall to the Earth from an elevation. So wouldn’t the appropriate elevator just rise at a constant velocity instead of constant acceleration?
3) Hawking radiation: what is meant by loss of information in this sense? If the mass and energy that were absorbed by the black hole could never escape it, wouldn’t that also constitute loss of the information? How is loss via degradation/radiation different than loss due to permanent sequestration?
thank you in advance to any physics fans who help me understand these :)

Thank you very much

It's not just Einstein's equivalence principle that stems from a thought experiment, but also Galileo's. He had a thought experiment about two objects, one light and one heavy, falling together, tied to one another, to demonstrate that all objects fall just as fast.

Hi Sabine. Not a physicist, but love your videos. I have a question about spatial expansion. We know that it happens/has happened, but is there an understanding about the mechanics of it? I can conceptualize how time is also created as light will take longer to travel through expanding space, but if space is in fact digital and quatized, must it then expand in discrete planck-length geometries?

Dear Sabine, I am glad that you pointed out how crucial Gedankenexperiment is to theoretical physics. Aber dafür muss man einen Kopfkino und eine Zwangsjacke haben.

The embedded 'information' is the ability to remain each other's opposite even after these properties have been undefined for any period of time.

Well argued.

another interesting talk, Thanks, are the nails new

Thank you very much !

Another analysis of the subject abstracted from the action techniques of physical evaluation, the imagined quantities in active qualities that The Calculus is developed to do, to dispel the illusion of "ghosts of departed values" that the "Science techniques of Measurement technology" studies. It's all about analogy, by default, so imagined manifestations of image properties is appropriate technique applied correctly to known situations. Eg an understanding of the principles of logarithmic timing superposition, (superposition situation), as standing waves of holographic image projection, (technique of self defining calculation valuation by observation), is "how it is" naturally.

Has the actual EPR experiment with position and momentum been conducted or just those with other non-commuting quantities like spin and Stern Gerlach magnets cobstituing the "common past"?

@Sabine Hossenfelder Any chance you could cover the subject of bohmian mechanics (aka pilot wave theory)? Could the wave be a result of no/low mass particles being influenced by the bending of the space around the particle much like a boat in water could be influenced its own wake created by the ripples in water? Could this bending of space around particles be the quantum version of gravity?

If we'd have two entangled electrons and a device that measures amount of spin, but cannot possibly measure direction, would it measure 0 for an entangled electron (because it is in superposition of both positive and negative spin states)? Would it break the entanglement and why, if it cannot determine the direction?

Sein bekanntestes Gedankenexperiment war das "Zugexperiment", bei dem er die "Relativität der Zeit" quasi am Dopplereffekt der Lichtgeschwindigkeit erklärte, der sich ferner sogar an der Rotverschiebung des Lichtes - fernster Galaxien - bewies. Im Zuge der dabei aber spätestens erkannten Widersprüche, zur Absolutheit der LG, verzichtet man indessen auf seinen Gedankenzug-Klassiker.

I have a question about a thought experiment about possible trajectories of matter into and out of the photon sphere of a black hole.
Years ago a Professor explained to the class that there is a region near the event horizon where ordinary matter (atoms) could not pass through and make it back out of the photon sphere intact. This had to do with an increase in relativistic mass. Trajectories had to be calculated using the Schwarzschild Metric (Combination of General Relativity and Special Relativity) for calculating gravity at any particular point and not just General Relativity alone. So you get to a point where anything with mass passes a point of no return and this point is above the event horizon. Most people think that "classical" general relativity alone works all the way up to the event horizon and if you have engines to change your trajectory you can get back out as long as you don't cross into the event horizon. Susskind touched on this region below the photon sphere in a lecture but he did it with massless photons. I'm trying to find a video of a professor explaining relativistic mass increase in this region and why exactly you reach a point where you can go down and not up. That professor explained that even trying to move in any upward direction would increase your relativistic mass as fast as you can apply any force and the best you could hope for was to just arrest your inward (downward) movement. And near the event horizon if you arrest your inward movement you are still moving relative to that visualization of space or space-time flowing inward toward the event horizon. SR introduces a non linear quality that shows that it is not just velocity that can effect relativistic mass but also gravity itself can effect relativistic mass. Does anyone know of a lecture about this?

What is also remarkable, and I believe indicative of a deeper truth, is that we even have this ability.

I'm in total agreement with thought experiments! Here are two that will lead to insights: What will be the economic result if all labor is free (not caring if people are motivated to work)? The other thought experiment is: What if all movement is not created within, but comes from an outside source?

What if the light-clock is turned ninety degrees, such that the pulse of light bounces with, then against the direction of travel... (instead of the pulse moving "up" and "down")?

Somebody may have mentioned that already, but actually, the very first known thought experiment in the history of Physics was made by Galileo. This is how he inferred the fact that all objects should fall at the same speed in a vacuum regardless of mass. His reasoning was to consider a large, massive object, mentally cut it in two parts, and dropping it: how should the parts fall compared to the whole solid ? What if the parts were linked with a rope ?
It is precisely these thought experiments that drove him to experimenting on the free-fall of objects for real.
Some would argue that thought experiments were conducted by Aristotle as well, which in a way is true, but Aristotle's "discovery" process cannot be associated with what we nowadays define as the Scientific Method. Therefore, his reflexions cannot really, in my views, be viewed as thought experiments, at least not in a modern sense.
Thank you for the video !

Sabine, where is the reference in reducing entropy by information? Or without you mind let us know on it?

You seem to have such a vast amount of knowledge, i would love to be able to learn more from you and pick your brain and give you all my theories hahaha.

Information loss paradox is not the problem of The General Theory of Relativity. It squarely falls onto Quantum Fields Theory which argues for the conservation of the information, not the former theory? And also as a personal note, sitting on a tram in circa 1905 and looking back to the watchtower and postulating: what if I move away from that watchtower at the speed of light and then dropping the bombshell Special Theory in which you can travel in time (proven more than 50 years later) such a giant paradigm leap. That is the craziest thought experiment I have ever heard and deserves a special recognition.

I'm wondering about the period between EPR and Bell's experiment. Hidden variables seemed like simple, elegant explanation making Bohr's theory look crazy. I've learned that even Bell was leaning towards EPR. What was so significant in Copehagen interpretation (uncertainty principle) that outweighted this Occam's razor of hidden variables so that there was a need to test which is true? It must've explained something that other theories couldn't, but I don't know what it was.

Your dress is a nice match for you, really pretty, and the background compliments. The content presented is good.

Great Video! anyone who likes Maxwell's Demon idea might want to read The Demon in the Machine by Paul Davies

first word. Einschhhhhhtien! Love it!

Thanks

2:45 I am not sure about the characterization of information and entropy. It needs to be handled carefully because there is an important distinction we have make between actual data, and the information that is supposed to _represent_ that data. The difference is that the information has to be interpreted in some context to yield actual knowledge of the data, in this example the data is the position and velocity of the molecules in the gas. The information from which we _infer_ the underlying data is highly abstract. It may be measurements of voltages from some optical sensor in an interferometer looking at light, or electrons or something which we assume is reflected from the molecules of the gas in a certain region around the aperture. The interpretive context from which we infer the data then includes all the theories we use which underlie the correct operation of the various pieces of measurement apparatus we develop in order to be able to carry out the experiment. So the underlying ontology emerges from the interaction of all this constantly changing technological development, and that inferred reality is what we call the actual data. Then the Shannon information is a quantity we calculate from the assumption that our measurement apparatus will only ever produce information of that particular form. In that sense the Shannon information assumes some particular generating process, called an _information source._

What is meant by “information” when referring to no useful information transferred between entangled particles and information being destroyed when black holes evaporate via Hawking radiation?

Thought experiments go back at least as far back as the ancient Greeks, if not before. Famously Descartes proof that he exists is the classic case in modern philosophy.

I love thought experiments. Use them daily, though not in the physics world. Not quite that smart. However, anytime you are about to share knowledge, wisdom, or guidance with others (ie: conference call or briefing) I suggest you first conduct your own thought experiment about how the conversation will go. Consider your audience, your experience and bias, their experience and bias, then tailor what you will say. It makes a huge difference.

The difference between how Gravity and Accelleration in a rising elevator affect a mass is that the Elevator affects the mass in a chain reaction pushing from the ground, through knees, hips, spine..up, compressing the mass. While Gravity affects the whole mass’ building blocks at once, not through compression or chain reaction leverage.

It's nice to see such a pragmatist like Sabine exaggerating. General Relativity is arguably a more important legacy of Einstein's.

7:02 is there any solution for this other than ER=EPR conjecture?

Is the principle purpose of the visible universe to do what it does most of, to create space time?

In my understanding, *Ernst Mach* proceeds Albert Einstein when it comes to questioning _assumptions and concepts_ of modern physics and either coining or proliferating the German 'Gedankenexperiment' (e.g. in 'Erkenntnis und Irrtum' from 1905).
According to Mach there would be no point to mistake e.g. the 'quantum' or any other 'particle' or concepts like 'gravity' as _real_ as the apple that falls on Newton's head - as the only function of physics would be the unbiased and precise _decription of their _*_relation_* within the human _experience_ - which requires experimentation (that is the control of circumstances of observation and their incremental variation) - on one side - and reflecting _'introspectively'_ on 'premises' that guide the design of such experiments on the other side, ensuring whether one asks 'proper' - that is _well defined_ - questions.

hi, there's actually a thought experiment from Galileo Galilei, with two rocks tied with a rope, that he used to prove wrong the previous theories of freefall speed being proportional to an object's weight.