 Okay, so we've got a bit of a contention, so I'll turn that light out. If I start turning this to the left this time, that 10K pop, oh, and we're actually burning up the solder, like that. So I'm gonna take the power off. So I do this solder, let's pop that power back on again and just see if it's 22 watts, 20 watts. That's what it's saying over there, look. Now if I start turning that back again, if I go to the left, it's going down 15, 12 watts. If I start going back to the right, 25, 26 watts. All right, see if we can get that to, okay. And if I turn the other part to the right, that's 40 watts. Oh, I thought one of me sticks, I've never got two. So if we are getting that 22, that goes up to, did you see sort of 40 watts? So I wonder if it's possible to use this one for the little Tesla. I don't want to do it too much. I'm gonna start smelling something heating up, so let's just take the power off and do some voltage checks. Watch your eyes, do some voltage checks, temperature. That's warm enough of it. The coil, not terribly warm, voltage regulator. Mm, they should be okay. I mean, it's supposed to be five watts, but got a lot more ability to dissipate power there. But it is warm, they are warm, they're seven watts each, these resistors. But between them, it gives me just over an aim. I think it was 1.0, and sorry, 1.0, 7.4, something like that, if I remember rightly. The resistance across in, it wanted to be 1.0, about five watts. So that's good for that, and I don't think we're getting it warm. And my switch is not terribly too warm, but it's not really doing a great deal, is it? And it can go up to 18 volts this circuit. So, but I suppose that shows that it works. So do this one at 18 volts, look. You can get it to pull a nice little bit off, but in there as good as using, it doesn't jump across. That's a 122 watts, it says as well, let me show you. But 122 watts, 23, and climbing. So we probably don't want to do that too much. That's a lot of power, that's more than the other one. Now I know this is like back to front on the video. And I'm sorry, but there's like, I can't quite, it's a one hour 40 minutes of video. Without including this little bit. What's it say, 17 watts. That's nice, nice little color. And that's, as you can see, a lot of burning. It's been the paper on here, which isn't such a good thing. So I've got to try and, well, I can't, I'll have to, I don't know if you can see that, but this is a bit harder to do, so I'll have to just literally just chuck the power on. I'll have to put a little monitor to see what happens when I do that. Oh, okay, that's 18. Okay, so it works with that, 25 watts, 19 now, just sat there. And that was with, and that was with this turn, is this still sort of halfway? I turn that to the left, not quite halfway, should I put that back to about halfway? Where's this, turn it to the right, that's probably about halfway, and then I put that back to halfway-ish. Oh, if I put that out the way, that might make it a bit easier to see that, yeah. Put the power back, so that's at 13. See over there now, look, it's at 13, just sat there doing nothing. Okay, so I could use this, but I wonder if I can just get that to stay. I can't, I'm not there. Put something there. Okay, so now that's good, I can do the adjusting. So that's me turning that back counter clockwise. So that stops, I think it has. I hope it's not killed anything. I think it's quite warm, that is. I'm going to get that a bit closer, so it's like that. I hope you got to see that then. Unfortunately, I was trying to keep an eye on everything else. And these connections may not be the greatest. See what happens. It says 34 watts, but nothing's coming out of the fly, but 34 watts even. So that's, I'll turn that back to the middle. See what happens. Okay, that does try to turn it to the right a bit more. They do a great deal. It says 11 watts, I'd love to stay on there. Yeah, no, it prefers to be sort of sat in the middle of it, I think. And my connection's absolutely rubbish. So if I get a better power connection that might help. Let me just do temperature. That's quite warm, we need a little break. Okay, so remember this is just at 12 volts. There's no real restriction on the current. It's got a limit of 15 amps, that is the restriction, I suppose, but and of course the transformers will only give us 13.2 or so. So this seems to be the best. I've got it near or turned all the way to the right. I suppose I could go completely to the right. And this is still round about halfway, this 5K. So the 10 k-pots turn 0.4 or way to the right. If I just put, I should probably do it better this time. And even though it's not just that little smooth, I mean it is there. I think that's probably the most powerful. Yeah, so I need to disconnect that, actually, can hear. I don't know how it's called, actually. It smells nice, though. Yeah, just a quick look at that circuit. I'm not sure how it's going to be as I now connect it up to a coil and the secondary transformer in the coil over there. But if it was just a case of this one being, what I'm basically trying to say, is it's not very powerful in the right up to this circuit that you can't have a diode or rectifier diode. So I'm going to assume that this doesn't have a rectifier diode because it's exactly the same sort of output as what this is and you can see that this doesn't have a rectifier diode at all. It's just got a few turns there. I suppose what I could do as well is connect this into this one and just have half of this on the go, or this to this, whichever, to have half of this because it saves like five to six turns, I think. Of course, this has got a lot more turns on here at the minute. So let's give that a go as well and see what happens. Well, that's interesting because it's not as good. We've only half, we've only the amount that they said to give because, look, you can see how I've connected between these two. So it's just from the centre tap here to here. And it isn't anywhere as good. Like that. See here, look. That's all we've got. I'm even trying to stretch it out. That was good. Definitely not as good. It's worth checking. It's worth seeing what the difference will be. That's all part of doing the experiments. So I'm going to put that back over here. But I think this might be dragging on now in this video. And there's not a great deal to cut out. It's not as low as we've got quite big times of pause, but this probably could be cut out while I'm jibbering about now. So let's stop. Yeah. And now I've got to try and find some of the capacitors, I suppose. Maybe I can play around the capacitors a bit as well and see if that will make any difference. Add a bit of capacitance by removing one of those capacitors. And we can do that just by just connecting here and connecting here or connecting here and see what happens there. Yeah, great. Well, oddly enough, I don't know if anybody else noticed. But the wire's off. So we haven't got those capacitors connected anyway. Let's just give that a go again. Because look, if I do, if I just put this back here again, I can do this. OK, so that's what we've got without the capacitors. Yeah, not the greatest connections I know. Put this back and do that again. I don't think we've got our connection as it's supposed to be. All right, let me just fiddle with it. Let me just fiddle. I'm a bit lost where do we get to. I reconnected the capacitors, right, wasn't it? And we're still on just half of this. So let's give it some power. So it's on 50 watts. It's not really great. I don't think it's as good. It might be. Let's go back and look at the video again. OK, right, let's just get it back. It makes the air smell so nice. So now I've put it back to the two outer ones. So we've got all of those turns. OK, so it says 35 watts. I don't know what you're looking for. It's just a bit better like this isn't it. Let's discount the power. It says, look, it's using this power. Disconnect it. Yeah, better like that. Let's have a look at the thingy, the capacitance one. Let's get some light. Pretty sure. That's like 100 nano. Let's have a look. Let's get on the meter and see. OK, so connected to the meter. On all the frequencies, 1K, 7.5K and 100 hertz. It's 100 pK. I'm not sure whether that's going to be good enough. I need a bit more on that out of thought. I've got these ones here. These are 100 nanofarads. 3kHz. Not a regular choice. I've got a bunch of these. And these are 100 pKF each. 20 kilovolt. Or I've got a bunch of these. And these are 100 nanofarads each. At 3 kilovolt. Or I've got this. Done, done. That's 100 nanofarad. 20 kV. I've used this before. On my very first videos when I built a big long candle, bloody stick, coil. Took me five and a half hours to find it. I didn't move in all that time as well. I think actually I did have a break. Yeah, and this sort of worked. Because I did it. I got one and I got probably... Coming off it like this, going to an earth stick. Maybe a bit bigger. It's on one of my first videos but I managed to blow. Dig out the other ones of these. Because some of them are made up like this. Already in series. In Rosa 4. And a whole bunch in parallel as well. So... But it burnt them out after a while because I was just turning up the power more and more. So really I could use these and not turn up the power so much. Get a bit of something going off it. I'm just going to do one of these and just see the difference. I just want to see what the difference is before I start playing around with the other ones. Hardening noise, nothing. Oh, that's tiny. So... Okay, and look at it, it knocks out. Knocks out that as well. Okay, that's... That's noteworthy. I'm going to try one of these and I'm going to try one of these because this one's a lot less. This is a hundred Pika ferrets. This is a hundred nano ferrets single, three kilowatt. Let's just go over here and see what happens. Okay, so there we go. Connected like that. Just how the other one was connected is nothing special. It's jumping. You know, it's starting to sound like a big A gap. Which is good. We're making quite a bit of noise there as well. And that's just with that little capacitor. So let's just see what that's like just before we've got the single one. See this? Anything that we're going to say, it's still the same voltage. Same everything. These ones are good. Okay, noise. That's pretty good actually. That looks a bit bad. That's not bad. 28 watts. It's just sat like that. Right, so let's just do the single one and see what that's like. Okay, so we've got the single one. Let's power it up. Making some noises. Now the differences may end up being massive, but there are differences in there. So after quite a lot of playing around and there not being that much difference between using... I mean there is a little bit of differences but it's quite hard to try and work out what's wrong with them. But I'm using this big one at the moment. Sorry, there's lights in the background. This big one. And I'm turning the voltage up to 18 volts as well. You can see that. And now, I'm going to get quite a bit more. And it's using 87 watts. I'm just going to see if I can move that back just a little bit. And now I have sort of tuned this into pretty much...this isn't even of all the way...it is all the way to the right. I just backed that up a little tiny bit. Thanks. What is playing with them? So I take that back to round about the middle. This one. I think this is about in the middle. Yeah. Because if I turn that just let's say a quarter to the left almost like the wires come off. I put it back to the middle. I just turn it to the right slightly. There we go. Pretty much bang in the middle a tiny bit to the left. Well, that's certainly an improvement. If I just see what that would be like...well no, we know what it's like at 12 volts. I've done it time and time. Let's try and get it to work as a Tesla coil now. I haven't got any sort of top load. But that's obviously for another video. So I'm going to call that a night with that. Yeah. That's alright. It's definitely worked. It's definitely worked and I'm just going to get that the actual Tesley sparky part of it sorted out. I'm not quite sure how to do that just yet. Even though I've done it before it doesn't seem to be working the same this time. Anyway, thanks for watching if you've got this far. So as we can do it this thing.