Capt. Russell 'Rusty' Schweikart, USAF, Air National Guard, NASA, Apollo 9 - podcast episode cover

Capt. Russell 'Rusty' Schweikart, USAF, Air National Guard, NASA, Apollo 9

Nov 15, 202347 min
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Episode description

Russell "Rusty" Schweikart grew up with a great interest in aviation and watching the planes fly around Lakehurst Naval Air Station in New Jersey. So it was no surprise when he joined the U.S. Air Force and was trained as a fighter pilot. He later joined the Massachusetts Air National Guard. But in 1963, he was selected as a NASA astronaut and was soon on track to be part of the Apollo program to fulfill President John F. Kennedy's vision of landing a man on the moon and returning him safely to the earth.

In this edition of "Veterans Chronicles, Capt. Schweikart takes us through his days in the Air Force and Air National Guard. He also details the moment in a cafeteria that he decided to pursue becoming an astronaut and the training he went through to prepare for space. Schweikart also walks us through the dark days following the deadly Apollo 1 fire that killed Gus Grissom, Ed White, and Roger Chaffee in 1967 and the changes that were made as a result.

Finally, Schweikart takes us step by step through his Apollo 9 mission, the testing of the lunar module and Apollo space suits, and the mesmerizing moments of looking back towards Earth during the first-ever Apollo spacewalk.

Transcript

Welcome to Veterans Chronicles. I'm Greg Corumbits. Our guest in this edition is Russell Rusty Schweickart. Captain Schweickart is a US Air Force veteran and a veteran of the Massachusetts National Guard, serving as a fighter pilot. He also served as the lunar module pilot on the Apollo nine mission, a mission that was critically important in preparation for the moon landing that would come just a few months later. And Captain Shwyckart, thank you very much for being with us,

Sir, welcome. Where were you born and raised there in New Jersey? I was born in a place called Neptune, New Jersey, on the shore on the Jersey Shore, and lived in a little fact, it wasn't even a town. I just lived in a area called Bailey's Corner, dirt road, that kind of thing when I was born and raised. Was there a history of military service in your family. My father had been in the army

at some point, I think in World War Two. I don't think he was I don't know if he was drafted or joined frankly, but he was in for just a relatively short time. I think in the signal Corps or something like that. He didn't serve in any war to my knowledge. Why did you decide to join the Air Force? Well, I mean I as a kid, I'd always been fascinated by airplanes. Where we lived in New

Jersey on a farm. We were very near Lakehurst Naval Air Station. And this was you know, basically when I was a young guy growing up, a young kid boy in those days, it was gender specific. You know. There were generally Navy fighter planes, but all kinds of fighter planes at the beginning of World War Two, so they were dog fighting, you know, over the farm all the time. I mean, so I saw all kinds of airplanes dog fighting from the time I was probably five or six years

old until World War Two ended in forty five or so. You were fascinated pretty area. Oh yeah, I knew all the airplanes. You know. What were you flying when you joined? Well, I mean training was in my era was T thirty four, I guess, and then the T twenty eight. Then from T twenty eight I went into jet training with the T thirty three. Out of basic training, I went from there into the F eighty six Williams Air Force Base in Arizona. We had F eighty six f's

for training and then on active duty. Well, the last part of training was in the F one hundred A at that time, and I went on in active duty to fire Squadron in the Philippine Islands and we were flying F one hundreds, F one hundred d's and the two seater the F as well. And then in the Air Guard, I went back to a really good airplane, which was the F eighty six h best airplane fireplane built. What

sort of assignments did you have or deployments of any kind? Well, out of the Philippine Island was stationed at Clark Field in the Philippine Islands, and we had the F eighty six, I mean, the F one hundred D was a nuclear capable. We carried nukes. Was our mission fighter bomber type work, and we stood alert not down in the Philippines, but our squadron

would deploy up to Taiwan. We had a couple of different bases up there, but in general we stood nuclear alert tainan Air base on Taiwan, and that was you know, we would typically be there for each of the sub units out of the squadron would be up that would deploy up there like one

week out of every four or something like that. Three weeks out of every four we'd be back home at Clark, but we would deploy up there and the planes would be sitting there at the end of the runway, and we'd, you know, every other every third or fourth day, we'd have a day off in town, but most of the time we were sleeping out at the end of the runway waiting for the you know, the whistle to blow and the code words to come down the telephone, and off we'd go and

you know, bomb somebody. How did you get the opportunity to pursue astronaut training? How did that opportunity present itself to you or how did you pursue it? Well? After I finished my active duty in the Air Force in nineteen sixty, I went back to graduate school at MIT, but in order to make enough money to keep the family going, I also enlisted in the Mass Air Guard, and so I was flying fighter planes even though I was out of the air active duty Air Force. And I had always been interested

in aircraft, as I had already mentioned. And anytime you're a fighter pilot, I mean, you want to go faster, and you want to go higher, you go faster, and you go higher. Eventually you get into

space. Right. And of course again my education was aeronautical engineering in undergraduate but when I got out of the Air Force and went back to graduate school at MIT, by that time the department had shifted to the Department of Aeronautics and Astronautics because we had launched the first satellites and the first humans actually while I was active duty in the Air Force, and so it was very natural that I my my interest and I hadn't mentioned yet, but I'd also been

interested not only in the sort of engineering and physical part of being a fighter pilot, but also in astronomy, and so you know, again becoming an astronomical object myself was a natural inclination. And when a president says he wants to get to the Moon in the next decade, that that was a clarion

call. When Kennedy, you know, made the announcement of the demand Space program and the goal of getting to the Moon, I mean, that was that was a major charge in my life and a commitment that you know, I was joined by other people, but that was a very serious commitment that dealt not only with my ambition but also with a fundamental goal of the nation, largely out of having been embarrassed by the Soviet Union getting into space first.

So what criteria were they looking for? How did they select the best of the best from the people they brought in for training. Well, you know, the whole selection process has morphed over the years. In the early days, and we were in the third group, the third selection of astronauts that was made in nineteen well at the end of sixty two, in the beginning of sixty three. And in that third selection you became an astronaut. Later on you became an astronaut candidate, and you went through a sort of

filtering process inside an ascad before you became an actual astronaut. But in the early days, if you were selected, you were an astronaut. You were going to fly. It was only a matter of how soon mission and that kind of thing. So again, while flying both on weekends when I was in graduate school, but also our guard outfit was activated when the Berlin Wall went up by President Kennedy, and so all of the over both the graduate work and when I was flying in Europe on active duty from the recall.

That was the same period that Alan Shephard flew. The Mercury guys were selected while I was in active duty, first the first time before I came back to graduate school, but then after I came back to graduate school, Shepherd flew. The Mercury program was moving along, and when I was deployed to Europe in the Airguard the second time on active duty, John Glenn had flown. I was tracking all of that, of course, and it was a

question how can I get to be one? And it was actually John Glenn's flight, and I was reading about it the morning after he flew at the base cafeteria while drinking my morning coffee and reading the article, I sort of went off, I think, subconsciously, just putting myself in his place and the description that was being given of his experience, and I sort of came too at some point and realized my coffee was cold, and I didn't know how long I had been off kind of doing this, but I thought,

Wow, that was an interesting experience. If I really care about it that much, I should commit to it. I do care about it that much, I'm going to be one. And that was literally the first time in my life when I had decided I really want to do something. Up until a time, it was sort of whatever looks most interesting at the moment, you know, And that's how he got to mit and why I went into

aeronautics and astronautics. But that was the moment when I said I want to do this, and so from that moment on I was in graduate school, of course, and getting my master's degree in aeronautics astronautics at that time, and that became a goal. In nineteen probably nineteen sixty two, well when John Glenn flew. That's US Air Force veteran turned NASA astronaut Rusty Schweikert, the Lunar Module commander on Apollo nine, which was a critical mission, setting

the stage for the Apollo eleven moon landing just a few months later. Still a haad, Schweikert takes us through his historic mission, but up next we'll learn more about his training and how the shocking deaths of the Apollo one crew impacted the space program. I'm Greg Corumbus. This is Veterans Chronicles. This is Veterans Chronicles. I'm Greg Corumbas. Our guest this week is US Air Force and Massachusetts Air National Guard veteran Rusty Schweikert. He later became a NASA

astronaut, serving as Lunar Module Commander on Apollo nine. Up next, we'll discuss the training Schweikert went through as part of the Apollo program, and then he takes us into the tragic loss of three American heroes in the Apollo one disaster. Well, when, again, these things have morphed a bit over time, but at that time when we went in, all of us came from many different backgrounds. Some of us were in science and in educating you

had advanced degrees in the science or whatever. Other people came from the test pilot school or things of that kind, so that there was a mix of backgrounds. And the first thing that NASA did was to conduct a kind of basic training which essentially mainly academic, but not entirely, which brought all of

these people to a common goal. So that even though the guys who were test pilots didn't become the equivalent of a master's degree or a PhD if they were graduate school somewhere, Nor did my experience in graduate school suddenly make me the training at NASA make me a test pilot. Nevertheless, it brought us all to a sort of basic minimum level of common experience and education. We

all also went through survival training at that time. That was another part of the initial training that lasted for probably half a year to three quarters of a year after we were selected as astronauts. And after that basic training period, each of us took some kind of a specialty, some people the spacesuit,

other people controls and displays it would be in our future spacecraft. In my case, one of the first things I did again coming out of MIT, and in particular the laboratory I worked in was related to the MIT at that time Instrumentation Lab, later in the Draper Lab, which developed the whole guidance and navigation system for the Lunar module and the Apollo Command module. And so because of my background at MIT, my assignment, one of my assignments at

that time was guidance and the guidance and navigation systems for Apollo. So each of us had a different type of background or specialty that we oversaw. But that was one of the things I did. Right after the basic training. You were part of the backup crew for Apollo one, which of course ended tragically in January of nineteen sixty seven. Gus Grissom, Roger chafe and Ed White lost their lives. What can you tell us about that day and what

that was like to be so near that. There was a great deal of fluidity in the program and our crew, which was Jim mcdibbott, Dave Scott, and myself were identified as a crew and we were initially assigned as the backup crew for the first Apollo mission, the first man to Pollo mission, and the crew for that mission was of course Gus Grissom, Ed White and

Roger Chaffee, and we were all friends. We lived near each other, you know, in the Houston area, and that was that was great, and it was the first time when Gus and I really got to like one another. He'd seen me as kind of of a nerd, you know, up until that time, and Gus was an interesting, rather gruff sort of guy. But Gus and I got to be great friends at the time, and we worked very closely with them. But we were also seen sort of

as the first crew that would probably fly the lunar module. We were back up to the first crew, but it was sort of understood that we would have the first lunar module mission then because of various changes that are too complex

to go into. It turned out that the second the guys who were going to fly the second mission, which is Wally Sharrah and his crew, became the backup crew to the first mission, and Jim mcdivott our crew moved to the third flight, which was going to be the first flight of the lunar module. And so that's how so we actually made that shift away from being the backup crew for the first flight to being the prime crew on the third

mission. Probably you'd have to look it up, probably four months before the fire on the pad that ended up killing the Gussen and his crew. So we were on our own, had our own mission at that time. We

were the prime crew on the third mission. And I can remember I was literally in Los Angeles doing some work with Rockwell or what was North American Aviation became Rockwell, the prime contractor on the Command module, and I was literally driving south on Sepulvita Boulevard for those who are familiar with the La area, right before it goes under the runways at LAX and I was driving my little

car. I don't know, it's headed toward the hotel or something, but I can remember hearing on the radio that this big announcement that the first Apollo crew had been killed in a fire on the pad at Cape Kennedy, and I can remember the shock of hearing that, and just before I went underneath the runways, I pulled off to the right on Supulvita Boulevard and I just sat there with my hands on the steering wheel, listening to the radio and

being totally in shock. I think I probably sat there for half an hour before I could put the car back in gear and continue with the day. I mean, it was an incredible and instantaneous shock that I heard being announced to the public. What kind of shock waves did that send through the Apollo system? And then did it kind of make you not reassess what you wanted

to do, but think differently about what you're about to do. I think my response, and I perhaps we always think everybody's response is like our own, but I think the primary response that most of the guys had was my God, How could we not have anticipated that tragedy. I mean, the design of the command module hatch at that time was such that we call it the Block one command module. There was going to be a Block two.

We all knew that it had different character characteristics, and the design difference between the Block one and Block two in terms of the command module hatch was that because you have a you know, when you're in space with a vacuum outside, you want the pressure of the inside to spacecraft to help hold the hatch clothes, and so logically the design was such that there was an outer hatch and an inner hatch, and that inner hatch was held against the seal around

the open hatch by the pressure inside the spacecraft. It was sort of a safeguard actually seen as a safety feature, so that to open up the hatch you had to pull in the inner hatch first and then open up the outer hatch outward. But the terrible reality was that on the on the pad during the testing, which was of course going on on Apollo one at the time, because of a fire inside started inside, the pressure went up and that

held that inner hatch close and the guys couldn't open it. So this safety feature actually killed the guys, you know, And and the question came up, how could we not have understood that that was a possibility, you know, And with the enriched atmosphere one hundred percent during the test that we needed one hundred percent in flight, So you know, you tested one hundred percent one hundred percent oxygen and a hatch that was held against the seal and you

couldn't pull that in that that was a killer, And it was just a shock to realize that we had not understood and understood the terrible consequence of a simple any kind of a fire, anything that would raise the pressure inside of the spacecraft during testing. So that was the main thing. Of course. The next thing was, my god, here we are. I guess that was what sixty eight coming right up on the on the end of the decade, and Kennedy's commitment to get to the moon and return person from the Moon

by the end of the decade was racing up on us. And the question is, my god, are we going to miss that goal because of this? Or can we get this repaired and fixed and redesigned and move on with it and still meet that goal. So that was the second issue. But the shock of those three guys being killed by that design and not really having paid proper attention to safety was a real shock to everybody, and not just

to us as the crew. It didn't change anybody's sense I mean, you know, when you're a fighter, pilot or survey anywhere in the military, you know you can die. That's what the military is air for. The military is there to defend the country. That means against enemies who are trying to kill you. Right, you're going to trying to kill them, that's

the deal. And even without enemies killing you, you know, airplanes crash, you're doing eye performance stuff, which is fundamentally risky by as basic nature. It's part of the deal. We accept it. The public, you know, they might expect people in the military to die, but people didn't necessarily think about people in the space program dying. We did. It was part of what you you know, that was the probability. It was a

matter of probabilities. So it didn't affect anybody's sense of wanting to be there or that kind of thing. I can't say that in any absolute way. As a matter of fact, I can tell we don't need to talk about it. But I can think of one circumstance where I think one of the guys did end up rethinking his presence in the program partly as a result of that. But that was an exception. By and large. The main thinking

after the shock of the accident, per se was over. The main issue was we got to meet that goal nineteen seventy Kennedy's commitment, and everybody just put their shoulder to the wheel and worked that much harder. When we come back, Captain Rusty Schweikert takes us along on Apollo nine, his testing of the lunar module and much more, including his powerful moment looking back at the Earth. I'm Greg Corumbus, and this is Veterans Chronicles. This is Veterans

Chronicles. I'm Greg Corumbus. Our guest this week is US Air Force and Massachusetts Air National Guard veteran Rusty Schweikert. He then became a NASA astronaut and served as Lunar Module commander on the Apollo nine mission, just months before the historic moonlanding with Apollo eleven. Now it's time for the mission, as Captain Schweikert walks us through his time and space as part of Apollo nine. Well, the primary purpose of the mission really was that it was the initial flight

of the lunar module. We would fly it in Earth orbit because for the first test flight you want to check out as much as you can, but you don't want to do unnecessary risks, so you don't want to do the first flight out at the Moon. So the mission was designed to fly ten days in Earth orbit and we would test everything about the lunar module that could be tested in Earth orbit. But there were a few things like, for example, the most obvious thing the landing radar. For example, you couldn't

test that flying in orbit around the Earth. So there were some things that were left for an initial checkout on Apollo ten before the first planned landing on Apollo eleven. But everything about the fundamental characteristics of the spacecraft itself, maneuvering all the engine, everything, ninety percent of the functionality of the lunar module could be tested in Earth orbit and that was the primary set of objectives.

But right behind that was the fact that the guys would be going out on the surface of the Moon collecting rocks and whatnot, and so we had The Apollo suit was different from the earlier Gemini suits, Thank Heaven, because a Gemini suit was really terrible and it created a lot of problems with the EVA actra hicul or activity. But the Apollo suit was a new design which enabled you to through convolutes at the major joints, the knees and the shoulders and

the elbows, far more maneuverable suit. And I was the first one to do an EVA using the new Apollo suit, and that was a secondary objective, but it was right behind the primary objective of the tests, testing and validation of the lunar module itself. So that was that was a great privilege for me to be, you know, testing both of them. Let's talk about each of those briefly in terms of the module. How did it perform and what if any tweaks were necessary? Well, it performed very very well.

I'm just trying to think, as you're asking the question, whether there were any tweaks in the sense of anything going wrong during our mission that was corrected for Pollow ten or for that matter of Pollow eleven. I mean, certainly, the software that we had within the Apollo guidance computer and the backup computers was did not contain all of the lunar landing software. So we had an earlier version of the software where but that was not corrections from problems that

we had. It was simply the evolution which would enable you to in fact add landing on the surface to what could be done. I don't think anything that we learned change anything we planned. I think every pretty much everything that we did on Apollo nine validated what we were planning and training for on the

subsequent landing missions. There are some things people might be interested in. I don't know how much you want to go off into things of this kind, but for example, in the rendezvous, the whole set of sequential procedures that you take in a rendezvous, and that's true whether you're rendezvousing around the Earth or whether you're rendezvousting with something around the Moon, And of course that's what you're doing when you come up off the Moon, you know, the command

module was still an orbit and you've got a rendezvous with it to get in come back home with a heat shield, you know. But a fundamental difference is that you're doing these same maneuvers in a sense, at the same place, if you will, around an orbit or several orbits. So the geometry is the same in a way where you're making these different maneuvers. But around the Earth it takes you ninety minutes to go around, whereas around the Moon

it takes you two hours to go around all right. So the fact of the matter is that these things that you have to do come closer together around the Earth than around the Moon. And in addition to that, let me say that when you're simulating these things that you have to do on the ground in training, those nasty guys out there on the control panel are making things fail all the time. And so you're flying a rendezvous or a landing for

that matter, but we're mainly doing rendezvous. So you're flying a rendezvous in docking, and things are going wrong all the time. So anytime in training that you're flying a rendezvous, not only are they happening faster around the Earth in our mission than they would around the moon. Okay, but everything's going wrong. So here we are. You're always fighting, you know, the

loss of this valve or that engine or whatever. And you go through this training and you can almost always make a successful rendezvous and docking, you know, in spite of everything going wrong. So there mcdivott and I are flying in Apollo nine and we're into rendezvous, you know, after doing our maneuver going back one hundred miles in order and then coming into rendezvous as if we came up off the Moon simulating that, and we're part way through the rendezvous

and we're sort of standing there side by side. Jim's over here, and we're kind of looking at each other and saying, why do we have all this time? And the answer is because nobody's making things fail, you know, And so we're having and then the guys going around the Moon doing the rendezvous or they have even more time to do it because it takes two hours for an orbit instead of an hour and a half. So it was really funny to think about these things, the difference between training and the reality.

The reality was almost always easier than the training, and which is the way it should be, right, That's exactly the way you want to Yes, So and let's talk about the spacewalk for a moment of the testing of the space As you already mentioned, I've also read how you were kind of mesmerized for a bit while you're out there looking back at the Earth. Talk about that moment a little bit. Yeah, I mean, first of all,

let me let me just talk about the planned EVA. I mean, I again, I was testing for the first time the new Apollo suit, and so the primary objective of the EVA, which was planned to be about two hours. Was in fact to test the suit itself. That was the main issue, and the backpack which I had on which made me of course independent of the spacecraft for the first time. All Eva's up until that time, all through Gemini you had umbilicals hoses which connected you to the environmental control system

inside the spacecraft, and so that's an umbilical. But on Apollo I didn't have an umbilical. I had just a simple tether, a rope that was all okay, and the backpack provided my life support, and so I was an in dependent spacecraft really uh, And all it was connecting me was was was a simple tether, which was a pain in the butt. By the way. Let me let me just say the safety tether created hazards, right because there's always flopping around and hook over a antenna or over a thruster or

something. You have to keep caring for the for the damn tether. But in any event, so the objective was to go outside test the backpack and the suit. But in that process, because we were the next day we were going to be going out and separating the two spacecraft one hundred miles and coming back in and doing a rendezvous to test the rendezvous procedures and the docking.

The docking mechanism was a Rube Goldberg device, I mean an extremely complicated, complicated device, a funnel which was a drogue with a hole in the middle and a probe which went into it, and it had all kinds of moving parts and springs and pressurization and little hooks. Amuse amazing device that had ever worked. Actually it never failed, but it was just amazing that it

did. But flying at the first time, we recognized that that was a prime source of problems, that that complex mechanism might not work, but we would have to get back into the command module or we couldn't come home and re enter. It survived. So another objective during my EVA was to externally transfer from the lunar module out the front door and across a set of handrails to get into the command module so that we could come home in case that

tunnel was screwed up or the probe and drogue messed up. So everything worked fine the first part of the EVA, and I'm just starting that traverse up the front of the lunar module to get over to the command module and Dave Scott over in the command module has got a movie camera. We didn't have any TV cameras in those days, all right, so we had a movie camera. And the film camera jammed after I had gotten maybe five feet up the front of the handrail, up the front of the lunar module, and

Dave says, oops, the camera just jammed. And Jim mcdibbott says, okay, Rusty stop, Dave. I'm going to give you five minutes to fix it. That's all time we can afford. Rusty. Stay right there, ay, ay, sir, Nothing like being unemployed in space. It was like, right, Jim, I'm not going to go anywhere. So instead of holding on to the handrail like it was vertical in a sense, I let go in my right hand. First of all, in my head, I'm saying, okay, this five minutes is for me. Okay,

I'm not going to start thinking about what comes next. I'm going to take these five minutes to really be here. So I let go with my right hand, just swung around with the left hand, and I mean, here is the Earth, the Sun up there, the Earth over here, and I'm looking at the at the Earth horizon, you know, it's just absolutely spectacular and it's completely quiet, Nick, I don't know what mcdivott was doing. Dave Scott was trying to fix the camera, and I'm just gaga looking

around and mcdivott was doing whatever he was doing. The radios only work when you're talking, when somebody's talking, so the radio's totally shut off. There's no buzz in your ear. You don't hear anything. The backpack is very quiet, and so there you are, complete silence, and I'm just looking

around and it's like, let this come in, okay. And I started to say back in the beginning, you know, I have a sort of philosophical bent anyway, and so historically, you know, I was well aware in a sort of academic way of the historic nature of what we're doing. But unexpected to me as I'm just swinging around and letting all this come in. My job I saw then was to be a human sponge to just absorb it. I wasn't going to try to analyg just just let it come in

process later, you know. So I'm just look taking this in and all these questions start just flooding in. You know, how did you get here, why are you here? What is what does this mean? What's what's going on? And not in the sense of out here on a Saturn five you know, I mean, that's not the deal. I'm here, and this wasn't what I thought right then it was the questions came in. It took me like five years afterward to really go through and think about the answers

to these things. But I mean, I'm here because of this incredible marriage between humanity and our machines, which has allowed us to extend our capability as humans to explore, which is somehow built into us. I'm really here as a representative of all of humanity, in fact, all of earth life on

this frontier as we're beginning to move out into the cosmos. And this is not just the American taxpayers, this is life, This is everybody simply here on this frontier as the sensing element of humanity, of life, of Earth life moving out. Five minutes is up. Couldn't fix the camera, Okay, Russy, you know we got to get back in now, Okay, to move up the handrail quickly, go back in the door, et cetera. Eva is over back to reality. That's what it was. What was

the reentry like re entry is really fun. And in Apollo and again also Gemini and Mercury before it, you know, you got this blunt, gum drop shaped thing that you're in re entering, and you got to have the blunt end forward, not the pointy end forward. Right, So you're going

backward, and because of the you want a bit of lift. I mean, the center of gravity isn't exactly on the center line, and because the center of gravity is displaced, the spacecraft is tilted a little bit and that gives a little bit of lift as you're going in, So you want to

have that lift vector up. Well, that happened to me. Your heads are down, so you're not only going in backward, but you're also going in upside down right, and the windows are in front of you, and you know, your heat shield behind you is really really hot to the point where it's boiling off, and it's boiling off through a very very thin atmosphere, and your speed is such that you are ionizing that vapor of your heat

shield burning off. And so here you are, and you're also rotating as you're moving the lift vector around to get where you want to be on so as you're looking backward, you're seeing your heat shield boil off and fluoresce because it's ionized, and you're going backward through a neon colorful orange and white, blue green tube, you know. So you're looking up a neon tube that you just created, which is your heat shield, you know. But you

don't get hot because there's enough of it there. But anyway, it's a very interesting. So the heat pulse comes, by the way earlier than the maximum G. Okay, the deceleration peak occurs considerably after the heat peak. So the pretty show is pretty much over. And now you're beginning to feel pressure, you know, from the re entry and the drag, and you're the G forces are going up and up and up. And I remember I looked over at mcdimmitt and I said, how many g's we got now,

Jim. Jim looks up at the G meter and he says zero point two. I said, what you know? I got? It feels like ten. Right, So anyway, and everything everything works, I mean, the the amazing thing about the reentry is that there are a whole series of things that have to happen in sequence. Any one of which that doesn't happen,

you're dead, right, And so you're sort of counting off. You know, there's the fifth one from the last it worked yay, or the fourth one worked, it's the second one gonna work yeah, And finally the last thing happens, you know, the parachutes come out, and it's like, yes, we're gonna make it. So it's it's a very interesting time. And now again each vehicle is different, and so the show shuttle comes in belly first and the view is completely different, et cetera, et cetera.

So they're all unique. But it was a pretty exciting and fascinating experience to re enter. You're not I mean, I shouldn't speak for everybody, but you know, generally speaking, you're not fearful. You're not You've done enough training. You know that you're looking at the gaugees, you're believe in what you're seeing, you know, and everything's going right. But it's really pretty

spectacular. Just a few months later, Mansett's Foot on the Moon July of nineteen sixty nine probably the most globally marveled that event, not only of that time, but maybe ever. What's it like to know, as you're watching that that you've been a major contributor to that process? Again, I think people's reactions are unique to them. Obviously a lot of commonality, but I think all of us were very aware, very much aware that we were a

privileged, incredibly privileged to take part in a truly historic event. I do with no question about that. Again, as I say, individuals react differently and put it in a different context. The context that I see now is a bit different and larger than it was right after and during the events.

In some ways, While that first landing on the Moon was truly unique and absolutely the epitome, my own personal sense, without taking anything away from Apollo eleven, was that Apollo eight was really the more historically significant moment in the sense that the Apollo eight crew were the first who literally had moved out the

birth canal of Mother Earth out into the cosmos. They were the first participants actively in what I have come to call cosmic birth, and they looked back from around the Moon and saw the Earth from outside its gravitational sphere of influence. They are the first people who represented Earth life moving out from the birthplace of life in our little corner of the universe. And that is what Apollo was on all about, and in my mind, that's the uniqueness of Apollo

eight. Apollo eleven, of course represented the accomplishment of the of the Kennedy goal, which was incredible. And by the way, even in the Soviet Union, the people would come up. I would be there, and years afterward people would come up, and I knew people Americans who were there at the time of the landing in nineteen sixty nine, and the Soviet people would

come up. Everybody was excited. People in Africa were excited. I mean people who didn't even have the capability to write their names, to have a language, to have a written language where you would tell them and they would be excited. Captain Twikart, I can't thank you enough for your time today. It's been a true privilege speaking with you, and I thank you beyond words for your service and your courage for our nation. Thank you, You're

very welcome. That's United States Air Force veteran as well as the veteran of the massive chuse It's National Guard, Russell Rusty Schweikert served as a fighter pilot. He also served as a lunar module pilot and did the first Apollo spacewalk on the Apollo nine mission, A mission that was critically important in preparation for the moonlanding. It would come just a few months later. I'm Greg Corumbus and this is Veterans Chronicles. Hi, this is Greg Corumbus and thanks for

listening to Veterans Chronicles, a presentation of the American Veterans Center. For more information, please visit American Veteranscenter dot org. You can also follow the American Veterans Center on Facebook and on Twitter We're at AVC update. Subscribe to the American Veterans Center YouTube channel for full oral histories and special features, and of course, please subscribe to the Veterans Chronicles podcast wherever you get your podcasts.

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