 This is my, it's not really Jacob's ladder, it's more of a 2 bits wire, giving a bit of a spark gap. It's quite nice that it doesn't go out when you're using just a few arms keeping it 15 volts. It can do a little bit more than a particular transistor, and it can take up 5 arms at the base, but it won't take anything else after that, not for over a second or two anyway. Dead, dead, because I tried to run it a little bit over over there with 5 arms for longer than a second or two just to see what would happen. Well, the data sheet took up 5 arms was the absolute maximum, I just had to push it. But I do like it, it's sort of like a thing, yeah, which is quite nice. It leaves a smile on my face, but what I've understood on a couple of videos I've watched about doing this sort of thing, when they talk about always the smile of the o-zone, if that's what it is when you smile the freshness, they say it's a bad thing, but I don't know if it's a good thing or a bad thing, or maybe somebody could let me know, because I just love it when I look at the smile of it. Have you seen what I've done with it, it goes up a bit too high and it loses If it doesn't start from the bottom, it sparks across at the top. My camera supplies takes you a few minutes of running this before it allows me to turn the play a little bit more. It's a cheap, tan-on supply that it's pretty good actually, just by when it's in and the supply on top is just running a little cool in the front. I've taken off the diode off the transistor and I've just put an LED on it because well, I can never tell sometimes and it fails a bit, but it's the diode or not, so and the LED, in my other circuit, I've got my big sider. That works really well for me, it's the first thing to get. I did try putting the little resistor, I did try putting the little resistor on the LED, I'm not a sider, I'm a sider. I've got my chip blue, I don't know if you've seen that. And the amputability is too much, so I do prefer the LEDs. What it gives them is an indicator. And to the work, they blow trigger. So it protects the transistor. Flyback coil from the back of the TV. You can hardly see it that well, but I'll turn this off in a second and let you see what's happening with the noise. See what I'm telling you a little bit, a little bit more, actually. So let me just see where the, let me just see where the, there we have it, the amputability. I'll turn it all the way up. There you go. So I'm allowed to pull, 4.6 times. So I'm going to just see them just a little bit more. I don't want to take it really past 4.8, because that's really just pushing it. I'm going to have to back it up a little bit, actually. So I can use the sign control to turn it a little bit. I'm just going to back that down. And then just take a little bit more. The course control. There we go. Now I can use the sign control to take it 4.8. I'm not going to go any higher than that, because I don't want to kill the chip. And it does every time I get a 5. It's just a little bit over. It kills the chip, so it's just not worth it. So that's 4.7. That's 4.8. I'm just going to back it up again now. Just do that. Well, I'm not going to trip that. I'm going to keep it currently limited at 4.7. There we go. I'm just going to back off the voltage. It'll make more noise, but it'll, make it to the top of it more. There we go. I'm missing it. I do like it when it goes up the ladder. Well, probably 2 bits of metal and sparks across the top. I'm just going to continue to do that. I haven't got a capacitor on this circuit. I've been looking at the building one for a couple or two. I don't know how many I need. I laid them down, had capacitors. So, anyway, I think that's coming for that.