 And we copy it all, Katie, and we have live TVC2 when you're ready for TV04. I wanted to say hello to a bunch of really nice kids up in there. I want to say sobatma, but it might be sobota, Alaska. And these kids were nice enough to have me bring something for their school on the shuttle and want to know how it was doing. Well, frozen Freddy's hat is doing just great. It's actually down in the bottom of the shuttle, and so I don't have it out here because we packed those things away because they're so special. But up here in the lab, you also wanted to know if it was cold here in the lab. And you can see that sudden I both have short sleeve shirts on, and so it's not very cold. It's really just like your house in the space shuttle. I mean, we have a thermostat and we can make it hotter or colder or whatever we want. And it's usually very comfortable in the lab, although it's kind of chilly up in the flight deck and in the middeck because we have lots of really nice crystals growing there and we're trying to keep them very cold. So whenever we go into the middeck, which is kind of our living room, where our kitchen and our bathroom all put together, then we put on a sweatshirt or a sweater. And you also wanted to know, I think you may have been watching me grow the crystals or put the mixed crystals in the gold box, and you wondered why I work gloves. And the reason for that is because, well, basically these are things you probably don't want to eat. And so you don't really want to have them on your hands. And since we're here in the space shuttle, we end up eating out of plastic packages and eating with a spoon most of the time. Usually to open food, we just kind of heat up our plastic package or maybe put water in it to hydrate the food and then cut off part of it and eat with our spoon. You end up using your hands a bunch and so you just don't want to get that kind of stuff on your hands. So it's just a good way to do lab work. A lot of times when we work with different chemicals, we wear gloves and it's really just a safe thing to do. So I just wanted to say hello to you guys. We're having a great time up here. It's a pretty neat place, as you can see. It can do a lot of neat things. And both of the studies that it's having is just as good a time as we are. So you guys study hard in school because that's how we got to come up to space since we worked so hard in school too. We'll see you. Okay, copy that. I have that. Maybe I'm missing a page right now. I still have the original PCAP in front of me. It shows a CGPA activity at 17.05. And you can delete that. There is a ZCG MON on your PCAP at 17. And I guess I was sort of assuming that I was going to do that, but you can certainly do that. Okay, copy that. I'll go up and do the monitor and then expect a ZCG KPA at 17.35 and AstroCulture at 17.55. Yeah, that's a good copy for it. In Space Lab for Katie, just to let you know, Katie, that the CDOT PI has conceded this KCA downlink. Data would not help us too much at this time. So we'd like to just press on. Next, can we just assume that you guys wanted to load the fourth sample in that holder? And that's a negative, Katie. I'm sorry to pass on to you. We appreciate you trying to catch up for us. But we're now scheduled to go on to Holder Bravo and run sample six. And we can get these words up to Katie after she gets through with her exercise period. Okay, copy that. Yeah, I was just showing her how to load them. I have to get them in for a show on a real sample. And we just assumed that, and I guess we assumed wrong, that we'd do that one. And then that was going to start it for her. But do you want to leave it running? I mean, you're not going to get her back until 20-hundred, I don't think. Space Lab Huntsville, DPM recommends lowering the Z drive level to five volts. Space Lab Huntsville, proceed on. Go ahead, Kathy. Sample number eight is running right now. And sample number six, the run number at the end of the run was nine, three, three. The gold box temperature was two-five decimal seven. And the fluke meter was telling me six, two, I'm sorry, two-six decimal two. And with that live downlink video, we see Al Sacco there in the Space Lab module at the controls of the drop physics module where he is continuing to use it to investigate some of the properties of surface controlled phenomena in drops of liquid as the liquid is levitated by sound energy waves in microgravity. Space Lab Huntsville, four decimal ninety-two, one, four, nine, decimal nine. Dump at four forty and GFCC, MONST, steps one and two, we'll move to four thirty. That's good, Sox. Looks like we're live on the flight deck with you. And I have the dump information if you're ready to copy. Okay. Let's see, this is going to be a time dump, one hour, forty-five minutes. That is a limiting factor. We will set the low limit of tank Bravo to fifteen percent. So if you hear that alarm go off first, then you can terminate the dump, otherwise it'll be timed at one hour forty-five. We're going to tank dump tanks Bravo and Delta, both to approximately twenty-two percent and four percent respectively. We will timble all the limits, supply water only. Now in the Space Lab module, we can see the SCS-73 commander, Ken Bauer Sox, in the module, as well as our downlink video. Those we can see as giving us a good view of the dynamic type of activity known as drop bifurcation, where a liquid drop is spun up under sound wave force. Zero, decimal seven. One, decimal four. We copy that, Sox. Thank you very much. This is Space Lab Operations Control Huntsville, just a minute or two ago there. We heard Commander Ken Bauer Sox giving a periodic status monitoring read-down for the geophysical fluid flow cell experiment, which we're seeing the live video from currently. It's one of the experiments that's running over fairly long periods of time and they're interested in getting as much video as they can when everything permits and they're able to get this specialized type of scientific video coming to the ground. The experiment team is currently running some scenarios or simulations of conditions in our Earth's mantle.