[Eternal Student]

LATE EDITING:    I've mistaken this article for something in the Chat section.  Sorry.  Don't pay it much attention.

Hi

Really?

    I don't really mind if there is a bit a friction or if the universe is expanding so that all objects asymptotically become co-moving objects.
    Changing my reference frame changes the velocity of the other object in my co-ordinate system.  I can keep myself constantly accelerating and then the other object never needs to have 0 velocity in my co-ordinate system.

No comprendo.

    Since the other object has some (non-zero) velocity in my frame, it has some kinetic energy in my frame.  Just extract some of that by any of the usual methods   (e.g. use a dynamo to obtain electricity from motion).   This will slow down the other object a little but it doesn't matter.   Just change my reference frame again.

------
Why is this OK?   I need to maintain relative motion between myself and the other object.  I can do this by applying thrust to myself.   I don't need to input any energy to the other object, I can always just take energy from it.  This isn't obtaining energy from nowhere, the entire system consists of the other object + myself.  I'm frequently inputting energy to myself.
    This is quite a lot of work for a fairly small and light hearted discussion.  You guys just want my patent.   Get your own.

[Halc]

Changing my reference frame changes the velocity of the other object in my co-ordinate system.

You're confusing actual change of velocity (which, in any inertial coordinate system, requires proper acceleration) with an abstract assignment of a different velocity via an alternate abstract choice of reference frame. You make the mistake here as well:

So all I need to do is accelerate myself (not the machine) and then the machine's moving components can have it's kinetic energy replenished.

1) No acceleration of anything is needed to choose a different IRF. It's an abstract choice.
2) Yes, abstract KE is frame dependent, but a systems proper (real) KE is not. Perpetual motion cannot be had with just abstract games, and a planet moving in perpetuity around a star is not perpetual motion, just an illustration of Newtons laws.

Why is this OK?   I need to maintain relative motion between myself and the other object.  I can do this by applying thrust to myself.   I don't need to input any energy to the other object, I can always just take energy from it.

Not perpetual motion. You're expending stored energy in your scenario. You can't keep it up. You know this, so I'm not sure what your point is with the example.

[Just thinking (OP)]

    No comprendo.

    Since the other object has some (non-zero) velocity in my frame, it has some kinetic energy in my frame.  Just extract some of that by any of the usual methods   (e.g. use a dynamo to obtain electricity from motion).   This will slow down the other object a little but it doesn't matter.   Just change my reference frame again.

------
Why is this OK?   I need to maintain relative motion between myself and the other object.  I can do this by applying thrust to myself.   I don't need to input any energy to the other object, I can always just take energy from it.  This isn't obtaining energy from nowhere, the entire system consists of the other object + myself.  I'm frequently inputting energy to myself.
    This is quite a lot of work for a fairly small and light hearted discussion.  You guys just want my patent.   Get your own.

I will believe you if you share the cash you make from this invention.

[Eternal Student]

Hi.
   Crumbs, this is in the technology section.  Sorry.  I thought it was chat or some other section.
I would have been a bit more careful about what I said.  Sorry.
   

You're expending stored energy in your scenario. You can't keep it up. You know this, so I'm not sure what your point is with the example.

   Yes, absolutely.  I was only trying to avoid putting any energy into the machine directly.

I think I'll go and edit some of the earlier posts and mark them "was intended for chat".   I won't delete the comments because everyone else's will look strange repying to nothing at all.

Sorry everyone.  I should probably get some sleep.

[Just thinking (OP)]

Sorry everyone.  I should probably get some sleep.

It's all right you made some interesting points there. It's all fun anyway.

[Halc]

   Yes, absolutely.  I was only trying to avoid putting any energy into the machine directly.

If you're drawing energy off it, you're part of the machine.
I can expend a hundred Joules of energy to accelerate a bullet to some significant delta-V. Relative to the frame of that bullet, the Earth has suddenly acquired a boat load of Joules (more zeros than I want to calculate), but if the bullet attempts to mine this plethora of KE from the Earth, it will get far less than 100 Joules before Earth once again comes to a halt in the frame of the bullet, the difference vanishing as heat. The total proper energy of the system (which includes the bullet) was never increased.

[Eternal Student]

Hi @Halc  and everyone.

   You did note that I thought this was a light-hearted discussion in something like the Chat section?  I guess you're determined to make me suffer for it.   OK, here are some replies.

   

it will get far less than 100 Joules

   It will get less than 100 Joules but not necessarily "far less".

The general idea being that we can get energy out of another object's motion relative to us.  That doesn't seem to be in dispute.  The original goal set was to avoid an input of energy to the machine and that's all.
 
   This bit you mentioned:

If you're drawing energy off it, you're part of the machine.

  Is semantics....  We don't have to be connected to the machine by any physical link while we are accelerating ourselvels.  I don't have to push against the machine to accelerate myself.  On that basis I would say we are putting energy into the system at ourself   rather than at the machine  -  or to simplify the phrase - I would say we are putting the energy in to us and not the machine.

   What we will probably all agree on is that I am putting energy into the system as a whole.  I cannot extract more energy from the system then I put in but I would maintain my stance that it is possible to take energy out in a different place to where it was put in.  I can put energy in at myself and change my motion but extract energy at the other object and store in it a battery if I wish.   (The battery will drift away from both me and the other object as time evolves but that doesn't matter, energy was extracted at a different place for an instant).

    There are also tons of practical problems, which wouldn't usually bother me but this is a technology section not the physics section - so I suppose we should mention practical limits.  Just like the bullet you (Halc) described being fired away from the earth - I will start drifting away from the other object.  I need to assume my arms and equipment can reach as far as needed whenever required.  (This is not a problem for Mathematicians, our knucles drag on the ground when we walk).
   Since this is the technology section, we should also mention that there is an easier way to put energy in at one place and extract energy at another place.  An electrical circuit takes energy from the cell (battery) carries this along some wires and allows energy to be extracted and used at a remote location.

Best Wishes.

[Just thinking (OP)]

Since this is the technology section, we should also mention that there is an easier way to put energy in at one place and extract energy at another place.  An electrical circuit takes energy from the cell (battery) carries this along some wires and allows energy to be extracted and used at a remote location.

Best Wishes.

There must be a way to come up with something I will keep thinking. Thanks for your thoughts and effort.

[TommyJ]

Perpetuum mobile is a term for music characterised by a continuous steady stream of notes or repetition.
Music also encompasses math and technology.

[alancalverd]

To answer the questoin, yes, hundreds of perpetual motion machines are invented every day. Now and again one reaches this forum. None of them work, or can work.

My father was approached by an PM enthusiast looking for investment. He produced his prototype and said "I have achieved perpetual motion for 20 minutes." No deal was struck.

[Just thinking (OP)]

Perpetuum mobile is a term for music characterised by a continuous steady stream of notes or repetition.
Music also encompasses math and technology.

You had me stumped for a while with that term I can see the connection now. There must be many forms of perpetual processes in the world just like the rhythm.

[Just thinking (OP)]

My father was approached by an PM enthusiast looking for investment. He produced his prototype and said "I have achieved perpetual motion for 20 minutes." No deal was struck.

There's never a shortage of flat batteries in the world.

[syhprum]

Many pseudo perpetual motion machine where built in the eighteenth century to trick money out of suckers they are quite easy to design.
A continuously  rotating wheel was one of the most famous ones.
Perpetual motion exists oh a atomic scale but machines that output energy cannot 

[hamdani yusuf]

Perpetual motion doesn't seem to be too much of a problem.

Really?

Probably. If movement of electrons are taken into account.

The laws of classical mechanics (i.e. the Larmor formula) predict that accelerating electric charges will release electromagnetic radiation, hence will lose energy.

https://en.wikipedia.org/wiki/Bohr_model#Origin

In the early 20th century, experiments by Ernest Rutherford established that atoms consisted of a diffuse cloud of negatively charged electrons surrounding a small, dense, positively charged nucleus.[2] Given this experimental data, Rutherford naturally considered a planetary model of the atom, the Rutherford model of 1911 – electrons orbiting a solar nucleus – however, the said planetary model of the atom has a technical difficulty: the laws of classical mechanics (i.e. the Larmor formula) predict that the electron will release electromagnetic radiation while orbiting a nucleus. Because the electron would lose energy, it would rapidly spiral inwards, collapsing into the nucleus on a timescale of around 16 picoseconds.[3] This atom model is disastrous, because it predicts that all atoms are unstable.[4]

But experiments using superconductor ring show that circulating electrical current can go on indefinitely, which means they don't lose energy through radiation.
https://arxiv.org/ftp/cond-mat/papers/0506/0506426.pdf

An extremely sensitive method for the purpose, pioneered by Onnes himself, is the
technique of estimating the upper limit of the resistivity by studying the decay rate of the
persistent current in a superconducting ring. Once established, the time dependence of the
current I(t) through the ring is given by I(t) = I0 e ^{– (R/L) t} where I₀ is the current at t = 0, R is the
resistance and L is the inductance of the ring. If the superconductor had zero resistance, the
current would not decay even for infinitely long times. However, an experiment can be
performed only over a limited amount of time. In a number of such experiments no detectable
decay of the current was found for periods of time extending to several years.

In a minor variation of the experiment, after the loop became superconducting, the
source current was switched off, the superconducting loop being driven into the persistent
current mode. It was observed that even now the field generated by coil B remained much
larger than the value in the normal state, indicating that the resistances in the two paths are
exactly zero. This provides additional evidence that no extraneous effects such as differential
terminal resistances have any role to play.
 In summary, we have demonstrated that the dc resistance of a superconducting wire
is indeed zero and not just unmeasurably small, thus resolving the uncertainty that had lingered
on for nearly a century after the discovery of the phenomenon of superconductivity.

[Just thinking (OP)]

But experiments using superconductor ring show that circulating electrical current can go on indefinitely, which means they don't lose energy through radiation.

The big question is will it be powerful enough to run a lawnmower in the long grass.

[hamdani yusuf]

But experiments using superconductor ring show that circulating electrical current can go on indefinitely, which means they don't lose energy through radiation.

The big question is will it be powerful enough to run a lawnmower in the long grass.

Depends on the size of the ring. But it won't be perpetual motion anymore, because energy is taken out from the system.

[Kryptid]

Depends on the size of the ring. But it won't be perpetual motion anymore, because energy is taken out from the system.

And it technically wouldn't be perpetual anyway, as all materials break down over time (at the very least due to proton decay or quantum tunneling, although such would take a very, very long time).

[hamdani yusuf]

Depends on the size of the ring. But it won't be perpetual motion anymore, because energy is taken out from the system.

And it technically wouldn't be perpetual anyway, as all materials break down over time (at the very least due to proton decay or quantum tunneling, although such would take a very, very long time).

No one who claimed to have built a perpetual machine claim that their machine can't break down forever.

[Just thinking (OP)]

No one who claimed to have built a perpetual machine claim that their machine can't break down forever.

WD40 will keep it going for longer.