Teacher: I meant the global we. So it would average out to 8 minutes.
this post was submitted on 07 Feb 2025
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Someone at day will inform sun is missing to the people on night
A person can't inform others faster than the speed of light.
Fraction of a second for transmitting information from one side of earth to other side. And teacher only said 8 minutes and the seconds are ommitted as there is always an error margin since distance from sun is not constant.
Also i assume signals are always sent from other side of the earth
What about gravity? I know I read something about this once, but is gravity also limited to the speed of light?
Yep, it is. We'd stay in our orbit of the sun for 8 minutes after it vanished too
Wouldn't the planet rapidly start to cool? I think we'd be dead by morning
The core is still hot. If we bury ourselves deep underground, there is a chance the humanity could survive for thousands of years without a sun. If not humanity, then some sort of life will survive long enough for future archeologists to find it millions of years later.
But don't quite me on this; I'm simply reciting from memory something I read in National Geographic or a similar publication 10-20 years ago. IDK how true this actually is.
We would need enough advance notice to prepare for massively farming mushrooms or something underground to eat. Canned food will run out in a few years, even military MREs have a shelf life. A few lucky people might survive a generation, but there's a minimal breeding stock requirement to avoid degeneration from inbreeding. Extremely long odds, I think the human race would only survive this event in a sci-fi fantasy story.
I wonder if we would feel the sudden disappearance of the centripetal force of the sun's gravity.
http://scienceprimer.com/lunar-and-solar-tides
Yes, the tidal effect of the sun would disappear, and that would probably make the oceans all fucky suddenly (after an 8 minutes lag).
Does gravity travel at the speed of light?
The speed of light is more than just the speed of light. Nothing can travel faster than the speed of light. Not particles, not gravitational waves (waves and particles are actually kinda equivalent anyway), not any kind of "information".
Consequently, if two events occur in a way that a particle would have to travel faster than the speed of light to travel between them, then it's impossible for one of those events to be caused by the other. They must be unrelated. So the soonest we will see any effect of the sun blipping out of existence, whatever the medium (light/gravity/??), is after 8 minutes.
What about quantum entanglement? Is that also limited to the speed of light?
Interestingly it's not, but the thing is that you can't actually use quantum entanglement to send information from one particle to the other, so it does not violate the principles of special relativity.
So usually this is explained with two scientists, Alice and Bob, on far away planets. They're each in the possession of a particle that is entangled with the other, and in a superposition of state 1 and state 2. When Alice measures the state of her particle, it collapses into one of the states, say state 1. When Bob measures the state of his particle immediately after, before any particle travelling at light speed could get there, it will also be in state 1 (assuming they were entangled in such a way that the state will be the same).
Due to special relativity, for some observers it could actually have been Bob who measured the state of his particle first, before Alice did. In the end, it doesn't really matter. They both got the same information: "state 1", but since they can't control what state the particle will collapse to, no information can be exchanged between Alice and Bob.
In quantum encryption, it is that bit of shared information that Alice and Bob can use as a key to encrypt and decrypt messages, but those messages are still sent the old fashioned way, using light waves traveling at light speed.
So usually this is explained with two scientists, Alice and Bob, on far away planets. They’re each in the possession of a particle that is entangled with the other, and in a superposition of state 1 and state 2.
This "usual" way of explaining it is just overly complicating it and making it seem more mystical than it actually is. We should not say the particles are "in a superposition" as if this describes the current state of the particle. The superposition notation should be interpreted as merely a list of probability amplitudes predicting the different likelihoods of observing different states of the system in the future.
It is sort of like if you flip a coin, while it's in the air, you can say there is a 50% chance it will land heads and a 50% chance it will land tails. This is not a description of the coin in the present as if the coin is in some smeared out state of 50% landed heads and 50% landed tails. It has not landed at all yet!
Unlike classical physics, quantum physics is fundamentally random, so you can only predict events probabilistically, but one should not conflate the prediction of a future event to the description of the present state of the system. The superposition notation is only writing down probability amplitudes of the likelihoods of what you will observe (state 1 or state 2) of the particles in the future event that you go to the interact with it and is not a description of the state of the particles in the present.
When Alice measures the state of her particle, it collapses into one of the states, say state 1. When Bob measures the state of his particle immediately after, before any particle travelling at light speed could get there, it will also be in state 1 (assuming they were entangled in such a way that the state will be the same).
This mistreatment of the mathematical notation as a description of the present state of the system also leads to confusing language like "it collapses into one of the states" as if the change in a probability distribution represents a physical change to the system. The mental picture people say this often have is that the particle literally physically becomes the probability distribution prior to measuring it---the particle "spreads out" like a wave according to the probability amplitudes of the state vector---and when you measure the particle, this allows you to update the probabilities, and so they must interpret this as the wave physically contracting into an eigenvalue---it "collapses" like a house of cards.
But this is, again, overcomplicating things. The particle never spreads out like a wave and it never "collapses" back into a particle. The mathematical notation is just a way of capturing the likelihoods of the particle showing up in one state or the other, and when you measure what state it actually shows up in, then you can update your probabilities accordingly. For example, if you the coin is 50%/50% heads/tails and you observe it land on tails, you can update the probabilities to 0%/100% heads/tails because you know it landed on tails and not heads. Nothing "collapsed": you're just observing the actual outcome of the event you were predicting and updating your statistics accordingly.
I believe we'd still be warm for those 8 minutes. We have an 8 minute grace period before having to do anything, then enough time to add sweaters faster than earth cools.
I was forced to calculate the black body temperature and radiation for the Earth, back in college by hand.
I decided for fun to zero out the sun from the equation to see what would happen.
My math came out to about -32°C average surface temperature.
Earth would become an ice planet.
I think you'd uh, need a bit more than a sweater in those conditions 😅
It's sweaters all the way down. You have time to order from China shipped by boat before -32C happens. You're just being a "save the sun" hippy climate alarmist /s. Energy company shareholders would benefit from high demand, so saving the sun is just selfish of you :P