I put it in my force balance equations, it’s a force. It doesn’t matter that it’s from curving spacetime rather than exchanging particles, it still exerts force on things.
But the point of general relativity is that a free-floating observer is equivalent to an observer in free space. That means that falling due to gravity, which you call a force, is an unaccelerated movement, i.e. no force.
If I take a relativistic frame of reference. If I take an ‘absolute’ non moving frame of reference, gravity shows up as a force. I use the later for calculating loads and statics, even though it’s technically not correct. And in that case gravity shows up as a force.
I’m not trying to argue approximations. Physics is just approximations all the way down. But as a physicist, I also love arguing about technicalities, and that’s also kinda the point of science communities for me.
Gravity isn’t a force. Its effects can be mapped to an equivalent pseudo force and used as such. Outside of general relativity, or Quantum mechanics discussions, gravity is a force.
We don’t know. Right now, relativity and QM fundamentally disagree on what gravity is. Both are also hugely accurate in their predictions. QM treats it as a force comparable to EM or the strong force. GR says it’s space itself moving. The force we experience is just a reaction to us trying to stay still, as space moves through us.
Beyond that, defining anything as fundamental is a challenge. How are you using fundamental?
In our current understanding of physics, it’s an effect from the curvature of space and not a force. Quantizing gravity results in unphysical divergences.
Whether there will be a way to model gravity as an exchange of particles, we can’t know for sure. So according to our current knowledge, it’s not a force.
Depends on your definition. If you stop at quantum mechanics way of defining a force with boson exchange then you may also say gravity doesn’t exist, because it’s not included in the standard model for now.
Gravity isn’t a force tho…
I put it in my force balance equations, it’s a force. It doesn’t matter that it’s from curving spacetime rather than exchanging particles, it still exerts force on things.
But the point of general relativity is that a free-floating observer is equivalent to an observer in free space. That means that falling due to gravity, which you call a force, is an unaccelerated movement, i.e. no force.
If I take a relativistic frame of reference. If I take an ‘absolute’ non moving frame of reference, gravity shows up as a force. I use the later for calculating loads and statics, even though it’s technically not correct. And in that case gravity shows up as a force.
I’m not trying to argue approximations. Physics is just approximations all the way down. But as a physicist, I also love arguing about technicalities, and that’s also kinda the point of science communities for me.
Well, its a geometric deformation of space-time because the displacement by mass
Knowledge is knowing that tomato is a fruit.
Wisdom is still not putting it in a fruit salad.
Gravity isn’t a force. Its effects can be mapped to an equivalent pseudo force and used as such. Outside of general relativity, or Quantum mechanics discussions, gravity is a force.
But is it fundamental though?
We don’t know. Right now, relativity and QM fundamentally disagree on what gravity is. Both are also hugely accurate in their predictions. QM treats it as a force comparable to EM or the strong force. GR says it’s space itself moving. The force we experience is just a reaction to us trying to stay still, as space moves through us.
Beyond that, defining anything as fundamental is a challenge. How are you using fundamental?
Yes it is. We just don’t know what makes it work
In our current understanding of physics, it’s an effect from the curvature of space and not a force. Quantizing gravity results in unphysical divergences. Whether there will be a way to model gravity as an exchange of particles, we can’t know for sure. So according to our current knowledge, it’s not a force.
Depends on your definition. If you stop at quantum mechanics way of defining a force with boson exchange then you may also say gravity doesn’t exist, because it’s not included in the standard model for now.
Well, firstly, we can quantize gravity pretty easily, it just has unphysical divergences.
But secondly, I think it makes most sense to talk about the current accepted physics because we don’t know how quantum gravity will work.
Don’t be saucy