You can see the dust kicked up by the rover’s engines, we’re, probably about two meters or so above the surface of mars. We’Re still checking the timing of this image, it’s just hot off the presses. You can see the mechanical bridles that hold the rover underneath the descent stage has three straight lines: heading down to the top deck and then the curly electrical umbilical that is taking all of the electrical signals from the descent stage down to the computer inside the belly Of the rover, in fact, the ones and zeroes that represent this image will travel down that umbilical before it is cut and the rover is left safe on the surface of mars. So there are these fantastic images that we’ve had a chance to take and are still getting down from the surface taken by a set of edl cameras taken by other spacecraft, and we will hopefully be able to see them in the days coming. But some more of those beautiful images are going to be shared with you today, the ones we have in hand – and i i turn it over to deputy phase – lead aaron stohra – to talk about some edl imagery thanks adam so, as adam said, an immense amount of Time and effort went in to gathering each of those images that you saw. Of course, the final one was gathered yesterday, as we were nearly finished with our entry descent and landing down to the surface of mars.

Another image that was captured midway through our journey down to the surface is what you’re seeing on your screen right now. This image was acquired by the mars reconnaissance, orbiter or mro, one of our orbiters that’s orbiting around mars. You can see here in the zoomed in part of the image in the upper right, our spacecraft with a fully inflated parachute and hanging, underneath it are protective entry capsule, like adam, said, with the descent stay or the uh yeah the descent stage, download image uh we’re Still figuring out the exact timing uh of when uh this image was taken as well uh, so uh it’s, even possible uh that we had uh already um come out of the uh of the protective entry, capsule and we’re coming down on rockets to the surface. But we we haven’t quite analyzed this enough to figure that out. If you look uh just below uh to the little circle uh that you see on the screen. This was our eventual touchdown point um. You can see it’s uh it’s near uh, the delta, that we’ve talked about that’s, so interesting to the scientists and we’ll get some updates uh on that uh coming up here, but just to give you an idea of all of the things that had to go correctly. For us to make it to this point at the point that that image was acquired, we had already undergone entry into the martian atmosphere right on time, traveling at 5.

3 kilometers per second, we have our. We already had undergone the searing heat of entry uh and pulled uh somewhere around uh 11 g’s of force, as we decelerated quickly while entering the atmosphere, and we had steered our path through the atmosphere of mars using thrusters and lift from our vehicle so that we Could zero in on our eventual target here in jezreel, crater, Music? So speaking of our our target in jezreel crater, i have another image to share with folks if we could put that up. This was an image captured by our rear hazard avoidance camera. So this is looking backwards from the perseverance rover’s perspective. When i look at this image. First of all, i feel a great sense of relief and, second of all, i see a landing site that looks relatively safe, free of boulders free of cliffs free of great slopes and that’s. What we spent a lot of time and effort, you know making sure that we identified those spots on mars so that we could safely set the rover down in in what we considered uh the best possible spot, uh. So uh, one of the other things uh that you know is possible. Uh that we could get here is, as we continue to get more higher resolution imagery down. This is just a thumbnail that we’re looking at, we might even be able to see bits of the delta in the distance and it’s possible, although yet we’re not sure um.

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