one lucky dude. that looks more fun than skydiving and probably cheaper too.

i have been working for two years on a magnet project. To date im right were i need to be. thank you for sharing.

its a favorite.

Yes they are, that's exactly what I am most others truthfully working in this field would qualify as, a seeker of truth.

That doesn't mean that I'm better qualified or any smarter than you, but I am looking into this (especially resonance) because I think there is both possibilities and already working proof that a 2 stage oscillator can work.

It doesn't just have to be a mechanical 2-stage oscillator, it can just as well be a electro-mechanical one, and you know what its called? A rotoverter!

OK, thanks for the fair answer.

Let me offer this suggestion: You can use a cylidner pump, like a bicycle pump arrangement, to capture the irregular motion of your pendulum and convert it into air pressure which can be stored, regardless of the time and distance details of the motion. Losses in compressed air systems are well understood. In addition, a pneumatic system could be used for the initial drive input.

See where I'm headed with this?

If you're saying that a pneumatic control and energy storing system would have been more favorable then I agree.

Force and distance used in pistons can be very accurately controlled and measured, and then we could see how much air we could compress.

If we got enough, which means more, then we could ultimately make it run by itself, at least if we ripped away all the electronic triggering.

I know about one guy who wants to do this, we'll just see if he makes a report about it...

Btw Ron, a fantanstic piece of work you have done here,

5 stars!

Très compliqué le pendulum de Milkovic.

version electronique

to complex! use a high amp ic.hall efect switch to activate the soleniods, nice mechanical work though, did you do the work?

Yes I did, thanks

Looks expensive.

I certainly hope you aren't wasting your time and money.

What do you expect will happen? Do you think you'll be able to get more power out, on a sustained basis, than you are putting in?

Because, as you should know (or will eventually find out), that's impossible.

As you (hopefully) eventually will find out, getting more out of a system than 'YOU' put in, is not impossible. That's what COP is for. A heat pump, a solar panel, windmill, hydro power, you name it! These are all systems qualifying as a COP larger than 1 system.

Creating something out of nothing is truly impossible, but that isn't what this this machine is about, even if some people want to believe so.

This machine collects the energy from somewhere, and it dissipates it in the hinge.

talk of a waste of money congress was duped 150 billion of our money on hot fusion where they we going to use magnets to contain an plasma.. dint they now you cant do that its impossible. to date they haven't gotten enough over unity to power my hillary Clintons dildo.

Ron, brilliant ... closest I have seen to proving whether or not this concept has legs. This is the first time I have seen accurately measured input power requirements (to keep it swinging) ... I am not sure if you measured the output?

If you aren't generating any power, are you able to estimate output from some simple mechanism based on the mechanical movement you are generating?

Have you formed a view on whether or not this could be 'the one' :-)

Thanks ... great stuff!

Regards,

Andrew

Amazingly high production values here. You are definitely raising the bar for the quality of work for this kind of research - thank you!

It would nice to know more about your actuator mechanism and how it works, and how your are measuring your energy input.

Thanks Mark

The round thing opposite the small solenoids is

a quadrature encoder that tells the 'brain' when

to fire the main solenoids. The small solenoids

of course pull the pawl into the ratchet as the

main solenoids fire.

Nice work!

Thanks!

what is it helpful for?

It is a test bed to understand the power input

required to run a pendulum

I see.

What has (will) be the conclusion?

What assumptions where made - proven?

(I like it :-) )

That at the start of the video it is running on 9 watts

Uff, 9 Watts, so much ?

Why don´t you use High Voltage pulses to

attract the magnet bar inside your relays to pull

the weight ? With this method you could propbably run it on Milliwatts.

Look up the Newman machine principle.

How much weight does your ball have ?

Anyone duplicating Veljko's pendulum was thought to have their own ideas as to how to build.

This has been presented as an idea piece only.

It uses a quadrature shaft encoder to provide the logic to fire the main solenoid and the ratchet solenoid. The first part of the video is with the system running on 12 volts DC, the

second part is around 20 volts DC

Ron

Hi,

very nice setup.

Can you already say something about the

energy bilance ?

How much power out versus power in ?

Many thanks.

Regards, Stefan.

Mein Lieber Stefan,

Thank you, the problem has been to find a generator that works with such a slow rate and limited travel. This I have nor solved yet.

Ron

I would be very happy to send schematic drawings of a short-stroke (10mm+) three-phase neodymium permanent magnet linear alternator. The design uses stock 'off the shelf' components. and can be built with simple workshop tools.

I am sure you could improve it, looking at your magnificent set-up here.

~Alastair