 No, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no. All right. So what do we got first? Okay. First up, from our favorite British maker, Simon Monk, we end Duncan, Amos, I guess, also friend. Probably our second favorite person comes as awesome, Electronics Notebook. We have a couple of Electronics Notebooks we've stocked, but I really like the design of this one. It's got some cool things going for it. One, Spiral Bound. How can you not love that? So you can both tear out pages and also lay it flat. I always love lay flat binding. It's got the nice plastic binding as well, so it doesn't get bent. Yes. It's got the extra reference pages that you have expected and seen in many books. So in the back, they've got the color, resistor chart, common op amp circuits, ASCII tables, MicroPython and CircuitPython, GPIO 0 and Arduino, like starting guides. But what I really love is, so on each page you get both grid, which is great. It's a nice light grid, but on the other page you get this half size breadboard layout that's kind of faint so you can draw your circuits over it and then make notes about your circuit diagrams, which I thought was like a funky trick. You still get three sides of the page that are, you get the left, sorry, the back of the page is still gridded, but then of course you can write over the breadboard. It's kind of lightly printed, but I thought for, I think, I kind of imagine that SideMonkey, he's written a lot of books with circuit diagrams and he's probably like, hey, I want a notebook that I can use to diagram my schematics on a, you know, you can draw like a Pico or Arduino or a Trinket and write out the LEDs, so it's like paper fritzing. So I have a bunch of notebooks and I've been like, you know what, if they were spiral bound I would use them. And then they just sit there because I'm like, oh they don't lay flat and I can't do what I want to do with it. And so I have like a pile of notebooks. So this is like one of the first ones that I've seen. And I don't know why people, some folks stopped doing spiral. I think just the way, you know, everything was a mole, wasn't moleskin. I actually, I apologize, I didn't realize this, this is dedicated to Duncan. He was, he was an assistant, but he actually passed away. Okay. Well then it means more then. And that's really- I didn't know that there, this is actually, there's like this beautiful epitaph in the beginning. Oh well. But I didn't read it before. That's okay. What a great way to have a tribute to someone that obviously Simon cared about. Yes. This is really good. So, you know, this is the thing about supporting maker companies. There's more to it. And this is, you know, every little special touch that goes along with these things. And like, this is dedicated to someone who probably had a big impact on, on Simon's. Well, one of the things I'll say is everything that Simon designs is like really, he's really thoughtful. He's very thoughtful. Yeah. All right. Well, I'm going to take a look at that right after the show. Check this out. Okay. Next up, you saw this from a group of makers that love to build stuff with bricks, sometimes called Lego or Lego compatible bricks. This is a builder mat specifically designed- Oh right. For those fo- Remember you asked about that? Yeah. I was like, we should stock this. And here it is. We added another photo afterwards. That was, yeah. Well, it's okay. You can show it on the overhead. I'll show it on the overhead. But basically it's, it's one to one- Yeah, you put the bricks on there. Hold on. Hit the bricks. So hold on. Let me actually grab the bag of bricks. All right. Well, I'll show this thing here. I got a bag of bricks. Yeah. I got a bag of bricks. So if you have a bag of bricks like this, so what's neat is, especially if you're like, you don't want to count and do sizing, this is sized exactly for doing- So this is like your, you do a lot of Lego stuff. Yeah. Yeah. And it's all like, apparently like it's got like the one-third width, like it's everything is, sorry, it's this way. So it's like double block and then, yeah, this is the height. So you can like do your math and your layout and you can decide how big you want it to be, like brick size. You don't have to like count it out. And there's also an area for angled, the angled pieces. And then this is life size of the little human figurine. Yeah. I saw this and I was like, this would be kind of neat and now that it's in percent, it's even more impressive. Yeah. It's actually very nicely made mat too. It's like really thick and it lays nice and flat. Okay. Cool. Great for brick builders. Next up, you know, the code was succulent. So this is why Mark DeVanc, who's been doing an amazing job with these artistic beautiful, lovely succulent. Yeah. You know, the best artistic LEDs in the world. I mean, this is it. There's nothing else like it. Yeah, these are cool. I'd actually like the succulents because the color actually looks like the color of succulents. So we had green and now we have a yellowish green. Okay. And the stars show tonight besides you, Lady Aida, our team at Adafruit, our community, our customers is. We have updated the quad or sorry, 14-segment quad alphanumeric displays to have STEMI QT connectors on the back. So it's the same size and shape and pinout as before, but now you can plug and play it much easier. For now, you still have to solder the digits onto the display, but you can get them in. Let's see. Click on the first one. Yeah. It's blue, red. Even better photos. So the next one I think is green, yellow. So yeah, no, they've got the contrast going well. So yellow, orange is yellow, white, and green. So red, yellow, white, blue, green. So each one of them, it's again the same code as before, but now plug and play. And I'll show that on the phone. Yeah. I'm going to show these. One of the things we get asked once in a while is like, does Agent Fruit do like CGI stuff because no one ever shows any electronics with the lights working on it. And so we're like, no, we actually do this. It's hard. And we also do live demos on our shows as well, because we really like to show these things to show you. It really is easy. You can run a company, run a show, and somehow manage to also do live demos. Yes. And they work. So yeah, this is great, because it's so, it is really bright. I mean, the contrast is very good in person, but of course it's tough to show. They look really, but it looks nice. It's very nice. So now it's plug and play. So I've got like this, you know, this Stem IQ T board, and I just have a connector going to it. So it's easy to plug and play, and then you can of course chain more displays if you like. For this one, I just soldered in Swiss pins so we could like quickly change out the colors because I want to do this demo. So we've got bright green, and then you can also get, let's see, I'll just swap out one, you can get red, get the right way around live demo. There you go. You lit it up though. Oh. You did. What? I did. I saw it. You know, I didn't insert these flat. I was all like, we do live demos. Check this out. I know, I know, but the problem with live demos is sometimes I, yeah. I'll edit it in post. Hold on. Dude, dude, dude, look how perfect this is. De-de-de-de-de-de. Everything's fine. How did you get this? Everything's fine. Everything's okay. That thing's going on. Everything's safe. There you go. Okay. I fit it in. Hi. Everything's fine. Nothing happened. So it's nice about the 14 segments. You can see if you're doing letters, you can have like lowercase and uppercase letters. And so our libraries have, for CircuitPython Arduino, have a font that you can use that will display it nicely. Otherwise, it's plug and play. The one update that I did do is there is now, instead of two power pins, there's a VIO and a V-hi pin. So the VIO pin is the same as the systemic UT pin, which means like in this case it's running off of three volts, which is, which is plenty, plenty bright. But I'm going to do a dangerous live demo because I didn't try this ahead of time. Yeah. Okay. I like it. You learn nothing. I learn nothing. But it, so it's running at three volt power and three volt logic, but then I can connect this to USB power and then it gets even brighter. So now I'm powering just the LEDs. I can power just the LEDs alone. Blowing up the camera. I know it's pretty fast. It's so bright. Okay. Yeah. So at five volts power and then three volt, five volt, three volt, five volt. You can see it's a little bit different. Yeah. It's a little bit brighter. So handy. And then I touched on things. But it's handy if you are, if you, because one of the issues people had is, oh, they wanted to use three volt logic for the driver chip, but they wanted the LEDs to be driven from five volts to get like a brighter look, especially for the green and blue and white, which have a forward voltage of about 3.4 volts. So updated is one of our STEM and QTification projects. We're trying to go through every product and QTFI and so you can see we're going back in time. This is one of our older products, but now it's plug and play. Yep.