- #1
ryanabc67
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- TL;DR Summary
- Q: "does it take more energy to accelerate at higher speeds"
A: The 'usual answer': "Your kinetic energy grows exponentially"....yeah, but how much FUEL do you burn?
I still don't get this and most answers all over kind of miss the point and just kind of recite without really explaining.
Here's the dilemma. Yes, kinetic energy grows exponentially with speed. So a 1kg object changing from 0 to 1m/s increases by .5J. And from 4 to 5m/s increases from 8J to 12.5J = 4.5J.
But the question is NOT how much kinetic energy does a body have as it accelerates. The question is, how much energy does it REQUIRE to accelerate? This is not the same question.
Clearly, speed is totally relative and therefore, so is kinetic energy. If you are running towards me at 4m/s and your friend is stationary when I begin moving towards you both, my kinetic energy increase relative to you is 4.5J but only .5J relative to your friend, so, no, sorry, CHANGE IN KINETIC ENERGY DOES NOT EQUAL CHANGE IN REQUIRED ENERGY.
The question is about how much energy is required to accelerate and given the laws of "relativity" (Galilean), when I'm travelling 4m/s .... relative to me - I'm stationary. No matter how fast I'm travelling, there is no speed that can be assigned to me. Whatever speed 'you' think I'm travelling is just your own opinion and has nothing to do with me. Everyone will have a different opinion on that, depending on what direction they are moving and how fast.
So my speed is always zero and every increase I make is from 0 to 1 (let's assume I pause after each increase for a bit).
What doesn't make sense however, is the following scenario.
Caveat: I'm NOT arguing with the law of conservation of energy. Clearly THE FOLLOWING IS WRONG... I just don't understand why.
So, why is this wrong; what am I missing here...
I'm sitting in space with my jetpack on. I weigh 2kg (not 1kg). I'm stationary and not moving.
I look out and see the earth travelling towards me at 100m/s. And I see the moon right beside it travelling at me at 10m/s.
I'm going to crash into one of them because both the world and moon need more energy and they will absorb my kinetic energy. And believe it or not, they'll pay me for it. They'll pay me $1 for every Joule of energy when I crash.
But I'm kind of broke. It costs me $1 for every Joule of energy I expend, and I only have $2. But I figure, this is still a pretty good deal:
I will turn towards them and accelerate from 0m/s to 1m/s.
So for the earth my kinetic energy just went from 10,000 to 10,201J, and for the moon 100 to 121J.
Nice!!! it only cost me $1 and one joule of energy and in return I'll expend and extra 201J on Earth. I think I'll head towards Earth. That's $201 bucks in my pocket for just $1 cost.
So I figure it's just like with beer, if one is good then 2 must be better, so, I accelerate again.
But this time, what I see is the earth travelling at me at 101m/s. Sure 1m/s was from me, but space is relative, so, I'll just pretend I'm stationary again since no one can actually argue with that, and, so again I accelerate from 0 to 1m/s towards the Earth.
But this time my kinetic energy goes up to 10, 404J, or a whopping increase of 203J, or $203. Big party when I get out of the hospital.
So, yeah, I crash, go unconscious and wake up with pretty nurses all around. And I decide, hey, if this worked once, why not do it again?
So I spend $200 on a new jetpack and fly away from Earth back where I came from at 1m/s. That only costs me a buck.
(I'm travelling "with" the Earth here so I only need a little bit of speed. Also, we can ignore the cost of gravity since it turned out I crashed much harder on the way in because of gravity but that nullifies the cost of leaving against it).
So I wait a day or so until I'm good and far away, just coasting at a constant 1m/s. Then I turn around and try to do it all over again - but, hey wait, the Earth is only coming at me at -1m/s. This time I need to accelerate all the way up to about 100m/s. This was a bad idea and I learn my lesson about the law of conservation of energy.
But, this story strayed far from the normal explanations of this. And this leads to a case where the kinetic energy is just stored up in the universe but could all be used up if everything just crashed into everything else. What I want clarification on is the 1J turning into 203J and the idea that every 1m/s increase costs 1J here....which makes me wonder if instead I chose a span of .00001m/s to increase by instead. It seems maybe the kinetic energy formula has nothing at all to do with the cost of acceleration and how much energy it requires.
Here's the dilemma. Yes, kinetic energy grows exponentially with speed. So a 1kg object changing from 0 to 1m/s increases by .5J. And from 4 to 5m/s increases from 8J to 12.5J = 4.5J.
But the question is NOT how much kinetic energy does a body have as it accelerates. The question is, how much energy does it REQUIRE to accelerate? This is not the same question.
Clearly, speed is totally relative and therefore, so is kinetic energy. If you are running towards me at 4m/s and your friend is stationary when I begin moving towards you both, my kinetic energy increase relative to you is 4.5J but only .5J relative to your friend, so, no, sorry, CHANGE IN KINETIC ENERGY DOES NOT EQUAL CHANGE IN REQUIRED ENERGY.
The question is about how much energy is required to accelerate and given the laws of "relativity" (Galilean), when I'm travelling 4m/s .... relative to me - I'm stationary. No matter how fast I'm travelling, there is no speed that can be assigned to me. Whatever speed 'you' think I'm travelling is just your own opinion and has nothing to do with me. Everyone will have a different opinion on that, depending on what direction they are moving and how fast.
So my speed is always zero and every increase I make is from 0 to 1 (let's assume I pause after each increase for a bit).
What doesn't make sense however, is the following scenario.
Caveat: I'm NOT arguing with the law of conservation of energy. Clearly THE FOLLOWING IS WRONG... I just don't understand why.
So, why is this wrong; what am I missing here...
I'm sitting in space with my jetpack on. I weigh 2kg (not 1kg). I'm stationary and not moving.
I look out and see the earth travelling towards me at 100m/s. And I see the moon right beside it travelling at me at 10m/s.
I'm going to crash into one of them because both the world and moon need more energy and they will absorb my kinetic energy. And believe it or not, they'll pay me for it. They'll pay me $1 for every Joule of energy when I crash.
But I'm kind of broke. It costs me $1 for every Joule of energy I expend, and I only have $2. But I figure, this is still a pretty good deal:
I will turn towards them and accelerate from 0m/s to 1m/s.
So for the earth my kinetic energy just went from 10,000 to 10,201J, and for the moon 100 to 121J.
Nice!!! it only cost me $1 and one joule of energy and in return I'll expend and extra 201J on Earth. I think I'll head towards Earth. That's $201 bucks in my pocket for just $1 cost.
So I figure it's just like with beer, if one is good then 2 must be better, so, I accelerate again.
But this time, what I see is the earth travelling at me at 101m/s. Sure 1m/s was from me, but space is relative, so, I'll just pretend I'm stationary again since no one can actually argue with that, and, so again I accelerate from 0 to 1m/s towards the Earth.
But this time my kinetic energy goes up to 10, 404J, or a whopping increase of 203J, or $203. Big party when I get out of the hospital.
So, yeah, I crash, go unconscious and wake up with pretty nurses all around. And I decide, hey, if this worked once, why not do it again?
So I spend $200 on a new jetpack and fly away from Earth back where I came from at 1m/s. That only costs me a buck.
(I'm travelling "with" the Earth here so I only need a little bit of speed. Also, we can ignore the cost of gravity since it turned out I crashed much harder on the way in because of gravity but that nullifies the cost of leaving against it).
So I wait a day or so until I'm good and far away, just coasting at a constant 1m/s. Then I turn around and try to do it all over again - but, hey wait, the Earth is only coming at me at -1m/s. This time I need to accelerate all the way up to about 100m/s. This was a bad idea and I learn my lesson about the law of conservation of energy.
But, this story strayed far from the normal explanations of this. And this leads to a case where the kinetic energy is just stored up in the universe but could all be used up if everything just crashed into everything else. What I want clarification on is the 1J turning into 203J and the idea that every 1m/s increase costs 1J here....which makes me wonder if instead I chose a span of .00001m/s to increase by instead. It seems maybe the kinetic energy formula has nothing at all to do with the cost of acceleration and how much energy it requires.
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