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One way to accelerate a flywheel is to put it in a rocket. In the rocket a clock slows down because of time dilation, and the flywheel slows down because of Coriolis force. If we eliminate the Coriolis force, a person with his brain slowing down observing a flywheel that is not slowing down, will say that "this flywheel is speeding up".
No he won't. if "his brain is slowing down" - you mean he is in the rocket too, yes? But the flywheels being exposed to the same time dilation as the astronaut so his observation of it would be as normal.If the flywheel were back on Earth and slowing (although I'm not certain how this would be down to the Coriolis effect), he might observe no change in its speed if the acceleration of his ship was just acceleration of his right.
Here's a method to accelerate a spinning disk:You place the disk horizontally. Under the disk there should be an "under disk"The under disk must always spin like the upper disk, sensors and motors take care of that. Then there is a mechanism that gives every part of the upper disk regular kicks, this "kick unit" is attached to the under disk. Now we have managed to produce such kicks that don't affect the spinning of the upper disk....And this way time dilation effect is eliminated from the spinning of the disk.
This may be too far beyond my intellect, but I've really no idea what this device is or what relevance it has to time or its modulation.I may regret suggesting this, but how about a diagram?
And this way time dilation effect is eliminated from the spinning of the disk
Let's say SH is exerting radiation torque on an object that is free to spin.
In which F of R is the time dilation effect eliminated?
One of these?http://en.wikipedia.org/wiki/Crookes_radiometerAll these 'devices' are lovely, but they seem to have little to do with time or effects on it. Please stick to the thread (if you must at all).
Quote from: peppercorn on 22/11/2010 16:22:06One of these?Quit fretting []'Device' 2 is the same device as 'device' 1.By device 2 if was clarifying device 1 for you.So here's device 2:Spinning hotplate emits photons, that carry angular momentum to a black object, that experiences torque.
One of these?Quit fretting []'Device' 2 is the same device as 'device' 1.By device 2 if was clarifying device 1 for you.So here's device 2:Spinning hotplate emits photons, that carry angular momentum to a black object, that experiences torque.
Again, perhaps diagrams have a chance to 'illuminate' me and any others not so able to make the, erm, intuitive jumps.
You are just complaining all the time [] "don't post this stuff", "post diagrams" This is how really fast moving black body radiates...
Why have you drawn the majority of the radiation's vectors heading in the same direction of the objects movement? That's definitely not right.
So when a moving black object radiates, the radiation's center of mass moves at the same speed as the object moves.
How can radiation (a photon) have a centre of mass? First it has no mass and second it follows a linear track (in 4D spacetime, before you say anything!) - so 'centre' means what? The photon has a vector, but I think you need to learn vector addition (in this case the object's vector and the photon's) before re-sketching. There is the added complication of observer-relativity for luminal(?) particles, that will require further explanation.
Would you draw me a diagram, pretty please?
See this video peppercorn:Time Dilation - Albert Einstein and the Theory of RelativityLaser gun points one way, laser ray goes completely different direction, because of the fast motion. Surely all types of radiation do the same.
[diagram=611_0]
Here is a spinning black disk radiating some radiation. Etcetera, etcetera, etcetera.