I have such a hard time accepting that this isn’t something almost everyone knows. It’s such basic knowledge, it’s taught in schools and mentioned often enough in any kind of media etc. Seeing this thread is like finding out people don’t know that fries are made of potatoes.
If this surprised you…You’re in for a world of hurt when you realize how little we all know
Start to specialize in one thing like a trade or a hobby and you’ll find the world chock full of information with no possibility for anyone to learn or even familiarize themselves with
The understanding I got from school was that gravity might be some kind of force and basically one mass attracts other mass, like electric potentials do
Keep in mind, that was 20 years ago. Our understanding might have changed and tbh I wouldn’t expect a high school physics teacher to be on the bleeding edge of research in all physics fields
Hey now, I wouldn’t say that. I’m a super-interested individual when it comes to physics, astronomy and the like and I feel like I have a decent grasp on the lay-versions of what we seem to know as of 2024. But I also know that I’m constantly on the hunt for new information, documentaries, etc. on the subject. Ain’t no way that “almost everyone” is putting nearly the same amount of time being interested in this subject matter. This isn’t pop culture (though maybe it should be😉).
Yaaay. Here, for your skills in understanding of space and time better than random internet you get the “I am smart” award.
They call it the “fabric of reality” because that’s a good metaphor to describe how gravity works. (Or at least I assume that’s where it came from, I could very well be wrong.)
When you stretch a fabric thin, and place something heavy in it, it’s going to sink and stretch the fabric down with it. Then, if you place a smaller object next to the larger one, it’s going to roll around the larger one, gradually moving closer as it goes down the slope created by the larger object.
That might be hard to visualize, so here’s a neat video I found.
It’s worth noting that spacetime isn’t static. Space “flows” into mass. It’s akin to a treadmill, you need to constantly move “upwards” to stay in place.
This is also the reason that uniform gravity, and acceleration are identical. With acceleration, the “ground” is constantly moving upwards into new space, pushing you along. With gravity, space is constantly moving down through the floor, trying to push you into the floor. It’s functionally the same thing.
That’s a really interesting perspective. I don’t think I’ve ever seen it described that way before, but it’s very easy for me to grasp. Do you have any resources I can look into for more information? Does that concept have a name I can look up?
It was the initial description used in my 1st year physics degree course. Not sure if it has an explicit name. We also jumped fairly quickly from there to the maths.
Basically space time can stretch infinitely, and flows towards mass. Anything on that spacetime is drawn along. It’s functionally identical to a standard force. Straight lines twist into spacetime spirals (aka orbits etc).
Physics has lots of interesting mental models for different things. Unfortunately, most are flawed, so dont lean on tgem too hard. What actually happens is way beyond what our monkey brains can interpret. The best we can do if follow the maths, and try and fit something to the end result.
Or, if you prefer, here is “Einstein” explaining it.
Not gonna lie I really thought it was gonna be Neil DeGrasse Tyson
Matter bends spacetime. Spacetime tells matter how to move.
Using this logic, you can imagine that above a certain threshold, this can become a feedback loop. These locations are black holes, where enough matter located in a small enough volume of spacetime can create enough distortion to further force more matter into the same volume of spacetime.
An object will always follow the shortest path between two points in spacetime.
When it’s sitting alone in the universe, the shortest path is to move through time from A to B.
When other things are present to also curve spacetime the shortest path can entail accelerating in space and slowing in time (from the viewpoint of us, the omniscient massless observer floating nearby pointedly not having any casual interactions).
Instead of remaining parallel as we move through space in the arrow of time, we get closer to other mass because our paths bend, our clocks running at slightly different beats.
Time-bending is mind-bending stuff, man.
It’s possible that time causes gravity.
One mind-altering fact that I love is that there’s no “acceleration due to gravity,” once you’re in free fall, until you hit the ground. Hop in a space ship with no windows and fly off straight in some direction. Turn off the engines and watch an accelerometer. It’ll never read anything until you run into something.
You could fly past a planet, a massive star, even a black hole. Your path through space could be full of curves and loops but you’ll never feel it. It’s popular to think of those things as like crazy high G turns but they’re not. You’re just flying in a straight line through space time.
On the flip side, say someone knocks you out and puts you on that ship. You wake up and instead of being weightless, you can walk around the ship like normal on earth. Are you on earth or is the ship in space accelerating at a constant rate? Again, there’s no way to tell. They are, physically, the same.
It’s popular to think of those things as like crazy high G turns but they’re not. You’re just flying in a straight line through space time.
Soooo… Interstellar was wrong with all the shaking of the camera?
Are you on earth or is the ship in space accelerating at a constant rate? Again, there’s no way to tell. They are, physically, the same.
In case of accelerating ship, I wonder what would happen in local frame once you hit/get really close to c. You’d get decelerated out of nowhere? Just as if you hit something?
Soooo… Interstellar was wrong with all the shaking of the camera?
All for the cinematography :) I will say that there’s a small caveat in really extreme situations like close to a black hole. Spacetime gets so warped there that your head and your feet take very divergent paths through spacetime, enough to stretch you out and even break you apart at the atomic level. You’d definitely notice that…
In case of accelerating ship, I wonder what would happen in local frame once you hit/get really close to c. You’d get decelerated out of nowhere? Just as if you hit something?
Oh boy, special relativity is another fun one. So here’s the thing: there’s no “universal speed” that you’re moving so you’re never any closer to c no longer how long you accelerate for. To accelerate is to change your reference frame and there are no special reference frames.
Which is to say that any physical test you could run inside your ship will give you the same result, always. Accelerate for 13 billion years at any rate and check the the how fast light moves within your ship, the answer is always c.
This is where the name relativity comes in. You have to think in terms of relative speed. Your speed relative to earth will indeed advance closer and closer to c but never reach it. There’s a bunch of really wild and crazy implications behind this.
Like that acceleration doesn’t change the relative speeds of things uniformly. Keep accelerating at 1 meter per second per second and every second Earth’s relative speed changes by less than 1m/s. And look up relativity of simultaneity, another consequence of special relativity. It’s fascinating stuff.
Gravity is not instantaneous. It moves at the speed of light. And the “speed of light” can only be measured locally, because the time and space at a point are curved. The path of light corresponds to “null geodesics” in spacetime, and a body traveling along the geodesic experiences no time elapsed.
I once came across information that said natural forces never pull. They only push. If that’s true then magnetism and gravity are even more confusing than I had initially estimated.
I once came across information that said natural forces never pull
That’s absolute nonsense. Discard that thought and never repeat it again.
I’m not following the logic.
Massive things cause gravity. We experience this, of course, as the earth pulling us in towards its center of mass.
But if gravity pushes, then what is it that is getting on the other side of me and pushing me towards the earth?
Where is the physical origin of that pushing force?
How does it know to get on the far side of me and push me “down” toward the giant mass that is the earth?
None of it makes sense to me. I hope it’s true and things are just that weird.
This is a pretty accessible visualization of gravity.
But it’s kind of a terrible one, because it uses gravity to explain gravity.
If it’s the demonstration I’m thinking of, it uses gravity to visualise the affects of an otherwise invisible force.
