 This morning's wake-up music is a message to Andy from Minutework. Looks like you're all about a great day. Roger, sir, are we? Views of the PAMSTU satellite from Endeavour. The range to the satellite is about 2,000 feet. This is a station keeping position that Endeavour will basically match the movements of the satellite for the next six to eight hours or so. This satellite is a cylindrically-shaped spacecraft with a size of about two feet by three feet. This is Mission Control Houston. The good news reported to the crew from Chris Hadfield here in Mission Control that the attitude measurement system has locked onto the PAMSTU satellite using lasers mounted in one of the canisters on the experiment rack in the back end of Endeavour's payload bay. All right, and I should say, do you still have a satellite capability? Affirmative. We are watching your camera view that you're downlinking. We'll have it for another few minutes. Great. Just want to make sure you're getting it. We're getting a rock-solid image, and we show that you're still tracking. You can thank the CSLB, the Mario, and Andy back in the space half. Policard Brown referencing Mario Runko and Andy Thomas operating cameras, providing the view of the PAMSTU satellite at a range of about 1,740 feet from Endeavour. Endeavour Houston, we're with you on Tiedre East, and the folks in the park again want to pass along their congratulations to the cinematographer and the key grip in the back. Just a fantastic picture, Endeavour. Thank you. John, we've just got a request to delay the next PAMSTU rendezvous by day. And we're going to accommodate that plan. It looks like that means, essentially, we'll swap Flight Day 8 and Flight Day 9 activities. And of course, there'll be a lot of impacts to that beginning here, gosh, post-SEP. So we wanted to give you a heads up on that. We're going to continue troubleshooting right now, but the PAMSTU folks think that it'll be real beneficial to them to give them just a little bit more time to analyze the data and see if they can come up with some workarounds to some of the problems that they've been seeing. That's the direction we're headed. And of course, if you've got any insights and any suggestions as to ways to minimize any negative impact on the crew to doing that, we'd sure like to hear that. OK, we'll copy that. We're just discussing the same thing on board, so it sounds like we're thinking alike. We don't have any suggestions on the laser, so we'll continue taking off video that we can. So Linda can use that. Of course, we've got plenty of, we'll be glad to see you here another day. And we've got plenty of thoughts for two or three more reputers. And we copy that, John. And we'll make sure we put that in the list of options that are considered the, of course, cryo. Cryo is the real limiting factor for you. Lights are gone down right now. Appreciate anything you can do to put in a good workforce there. We'll fight the good fight, John. Endeavor Houston for John. Yeah, John, of course, all kidding aside, we did take a look at your cryo margin. And we just, we don't see any way to conserve enough cryo to really get an extension day. Of course, we're protecting wave-off days, but we don't think an actual extension day's in the carts. We think it takes so much effort for us to get up here. We've been in training for this flight for almost a year now, and I wish I had a nickel for every day that Rick Dailers kept us in the seven past five o'clock, and we hope you're a rich man. Come back, we'd like to stay up here longer. And John, we couldn't applaud those comments anymore from a ground standpoint. This is one of the most exciting missions most of us have been involved with. And gosh, we'd like to see it go on for a lot longer. The story of the mayor, Cooperative Hurray, began back a couple of years ago when team members from the International Space Station Program conceived of the project that would power on the Russian Space Station and provide invaluable information to the designers of the array for the International Space Station. The US portion of the project was managed by NASA's Lewis Research Center. The Cooperative Hurray project followed an aggressive timeline taking less than two and a half years from the inception to today's deployment. The video that is being sent to us from the Mayor's Space Station was recorded during the spacewalk. In this particular view, an array on the base block of the module is the article towards the front of the picture, which is straight. The Cooperative Hurray can be seen as a accordion feature behind that array. And the spacewalkers are in the shadow on the right-hand side of the picture. To, well, once again, orient this particular picture, the golden straight feature towards the left side of the screen is actually an array that is on the base block of the Mayor's Space Station. The array that is being unfurled is an accordion feature that is behind it. In this particular view, you can see the accordion shape of the array as it's being unfolded a little bit clearer. These pictures were recorded by NASA astronaut and cosmonaut researcher Shannon Lucid from the interior of the Mayor's Space Station. This is the second spacewalk of the week. In this particular view, you can see the heads of the two spacewalkers and their movements as they uncrank the solar array. The individual on the lower portion of the deployed device is cranking in a slightly slower fashion. That's actually a little bit tighter crank. And then the person on the spacewalker on the far side is cranking at a slightly higher rate. This is a very physically intensive exercise. Both men were then re-entered into the spacewalk to complete the EVA. This particular piece of video was taken towards the end of the deployment. Overall, it took about three hours for Anjou Franco and Usachov to deploy the entire array. It is a very physically demanding activity since it requires both men to hand crank the array to its full extended position. After a brief pause to switch out concepts on the Mayor's Space Station, we are once again receiving a downlink of the deploy of the Mayor Cooperative Solar Array. The EVA today began around 1 a.m. Moscow time, which was about midnight, decreed Moscow time. That is the time with which the Mission Control Center works with. The crew members were back inside by about 6 a.m. decreed Moscow time, which is about 7 a.m. Moscow time. Even with a little more light, it's difficult from this position to tell the two spacewalkers apart. However, the two men that did the job today for a joint project were Mayor 21 Commander Yuri Anjou Franco and Flight Engineer Yuri Usachov. On the left-hand side of the array that runs down the center of the screen is the boom crane. This was used to move the solar array canister from the docking module where it was stored for the launch to its position on the combat one module. The canister was actually moved into position early Tuesday morning Moscow time in preparation for today's array, today's spacewalk and deploy of the array. The cable for the array also will run out and positioned for today's activity. We have completed the replay of the spacewalk activities. This is now a live picture from the Mayor's space station. Showing the solar array in its deployed condition.