 Okay, I just sorted that out so let's turn the volume up. I'm going to go about 15 inches, about 1.5 ounce. Now I was going to be like, oh yeah, I was going to be able to iron the motor on. I've lost it. Oh, here it is. The table's got a lot of new wires on it. Hee hee. Alright, let's try and set it on my plate. Go check it out. Connection there. Let's take that off just for a moment. Try that again. Yeah, it says it does want to play. It's happy to play like that. But it's just not happy to play like that. If I turn it all the way on, let's check that on and start from there. Here we go. There we go. So let's start spinning it away. Get that one down and move it. So we've got 16 volts. Oh, I've got a really good view from here. You've got to turn the pull bar. So you can see what we've got. So that's pretty cool. It's a lot of motor. I'm good to have a really good view of this. Let me just turn it down again. The darn thing. Spin that meter away. See what I'm doing with this without the whole thing coming in pieces. There we go. Stay still. Here's your easier. That should do it, shouldn't it? We've got a lot of time to move the time so we can keep that momentum going. If I turn it all the way back on, I'm not going to be able to see the sweet part of this one. So now I've got 20 volts. I'm going to slide the speed down. I'm going to try to pull up power and just... There we go. Start again. Just do it. Right down there. So, 50 volts on the... Right, 20 volts. I'm going to go down and just lock this in. See. They're going to be pretty bad. There's our sound wave. So we're at a... I don't know. 630 kilohertz. Yeah. 62763. That's a 20 volts. That's going to be 5 volts. He's only moving like that on the sound wave because he's getting past that. Maybe they're probably, but there's things probably to be placed on that. I think it was pretty... I'm going to do it if I can get it to a quick enough. Just do that again. 10 volts and 40 volts. Let's just turn that down a second. I'm catching people if it hits any of these connections. But I didn't. At least I turned it off. Yeah, so it's definitely better all around because I only have two turns on this thing. Definitely better all around. It would be nice if this was perfectly level just to stay on there nicely. So here we go. A good old spin out. Let's just give it four passes. Let's give it four passes. Let's give it four passes. Let's give it four passes. Straight up in. So I'm going to catch it. So that's pretty good. I bet this bulb doesn't work anymore. What are the temperatures like? They're still like like lukewarm cup of tea type temperature. I bet this doesn't work anymore. I mean it's actually got holes out so I can't see. No, it's just not going to work. No. I don't know if any of that is it. It's just reacted to me. Got it. All right. We've got two points on board. A bit 18 volts or something. It's always a nice one with the old bulbs. A little bit like only the bulbs. It's not bad. Oh, it went straight from your finger. Nice. That's my brand new flash now. That's always nice, isn't it? That was my screw driver. On my finger. That's not happening. But it still works, don't it? Yeah. This is a real simple circuit. I'll put it on the other wheel. I've got it caught on. Stay still. There we go. Back in. Push this. Let's check some of this. Ah, it's cold. It's real simple. I wonder if this is going to be different now with the different capacitors. What's that? 22 volts. Let's say 25 volts. Can you see that? There we go. 24.8 volts. There you go. A couple of inches. Kick in all about. It's quite a good distance, actually. We're just going to take measure. I've got one. Ta-da. Something like the law now. It's off. Oh, no, this is metal. That's going to be quite hard to do, isn't it? That's not going to work. That's not going to work very well. You've got to take my way for it. That's about an inch. Oh, that's small. Yeah, that's burning a lot of time. I think that must have been burning the something. There's just a bit of plastic on there. Never mind. That's okay. We don't mind that. What can I do with this thing? We big bulbs and that. We do little bulbs. We've done that. Ah, we're going to change the capacitor. We're going to do that in a minute. We're going to see who's going to make any difference. I just have to get no heat in it or anything like that. Let's try this electrolytic because we're going to do this on the polarity. These wires are set to the polarity. I know there's an LED and there's a resistor because I was prepping around and charging it and discharging it and washing it on me. It's quite cool, actually. I think about that sort of thing. I'm going to set it up a little bit. I'll get it back to about 25 volts. I think that's an inch. I'll get it back to about 25 volts. This is pushing this out because it's bound just really. That's what it's supposed to be. 24.6. Let's see what we get. I'm not sure it's actually making any. I'm not sure that's making much difference. Let's try a different capacitor. It's connected, isn't it? Yeah, seems to be. I'm going to try this double-ganger. This is like a 1200 volts AC. 4DC 1, schematic. 0.33 nano- sixteen units. Zero, so, I'm right. So0.33 micro-files. 330 micro-files, at piece. 64. 25 volts again. There we go, 25.3, that's what it's done earlier, 25.5. Where's that screwdriver? It's just doing a little time to break out the way it's solved. The screwdriver's back here. You can see that. That took some hours, I agree with you. How does this start? It's only using, well, it says 3.7, and it's like that. But when I start doing it, it's like 2.1, 3.1, 1.9. That's pretty good. Let's turn that down again and let's try another capacitor. I think that might have been a little too strong with new ones. Now I'm going to try a... This is a sixth colour volt ceramic. It's amazing, I can't seem to get me on the leg. It's not that difficult. It's got leaves on it, leaves are slightly warm on this now, so I think I was actually giving it a little bit of work. I'm going to try it with that capacitor. I've got one more capacitor to try. A couple of new shades. That's about right. That's about right. There we go, we use that. It's already at 2.9 ohms. Just setting it by itself. Trying to see that breakout by itself. I'm not sure if that's as good as it was. No, I don't think it is. I don't think that's as good. It's done to 1.6. I don't know. I don't think... I mean, there's not much difference, but I don't think that did as much as the other couple. The last one I want to try it on is this couple here. And this is what I use on my MOSFET. Well, there's a combination actually. There's a few I've been trying. Different values of these ones. I've got some other ones here. These are slightly different values to that. Different value on the MOSFET. Zero voltage switching circuit. And I built a four-year Royer circuit as well. We took that out of it to test that. I was a heating doctor. I still got to play around with that here. I don't know anything with it. Just built it and left it. So, we've got 24.5, which is a lot of that. And we're doing my 22.9 amps. So, well, let's put this out slightly. So, 25.1. Now we're on 3.3. Just sat there by itself. That's drawing more current. This will be getting a bit more action out of it. Okay, so we do, because that's just kicking out by itself there again. So, there is a difference between using the different capacitors. I'm going to try one of these other single ones. There's not much difference, but there is a difference. We're just trying to tune. Because that's better than the other one. That's ceramic capacitor. I'm going to try it now without one more test with the capacitor. I'm going to try one of these, these single microwave oven capacitors. Cooky capacity, you can find them in there. They're MKPs. All of the ones that are hot and strong are MKPs. So, let's plug this in. A bit of voltage. Follow that a bit. Not quite as much. Really? While I'm just doing that. I need to just turn it down just for one second. Just do a quick heat check. Wow, let me know. I still wouldn't drink it. It's still not hot enough to be a semi-drinkable lukewarm cup of tea. The way I look at it is, if the actual heat sink is cold, my chip is just like, oh, I've got my circuit. It's not going to help, is it? Probably killed it though. What do I do? What do I do? I'm going to pull that out. That's what I'm just going to do. Put it right around. Not the best connections going on here, but let's just give that a quick check. Yep, that circuit right here. 24.1. And that's with, yeah, that single cooker. I think that's a .23. Yeah, yeah, .23. Okay, now, I'm going to see what it's like without a capacitor. So I'm just going to undo these. So there's absolutely no capacitor connected. Temperature, yeah, I still wouldn't drink it if it was a cup of tea. Too cold, probably. So I think it's on. No capacitor, this time. 25 volt. I'm going to switch one off. I do take 4.5. I'm not that impressed with the performance of the capacitors, they actually perform us all. I'm drawing 3.3 amps at 25. That was something that turned up a little to one bit, so I got 4. Yeah, that's pretty good. And that's with no capacitors. So I'm going to check there why they're made. It's not actually making. You know what I mean? That's actually better. I'm out of it. It's still all very good fun. This is going to be on for way too long. I might have to edit some bits out, but cheers for watching anyway, guys. If there's any sort of place that needs anything else you want me to try with this thing, I'll give it a go, so let's know in the comments. So anyway, shut it down. Bye, guys.