×

We use cookies to help make LingQ better. By visiting the site, you agree to our cookie policy.

image

Astronomy Cast, Ep. 655: 65 Years of Space: Sputnik 1 Anniversary (1)

Ep. 655: 65 Years of Space: Sputnik 1 Anniversary (1)

Fraser: Astronomy Cast, Episode 655: 65 Years of Space and the Sputnik 1 Anniversary. Welcome to Astronomy Cast, our weekly facts-based journey through the cosmos where we help you understand not only what we know but how we know what we know. I'm Fraser Cain. I'm the publisher of Universe Today. I've been a space and astronomy journalist for over 20 years.

With me, as always, is Dr. Pamela Gay, a senior scientist for the Planetary Science Institute and the Director of CosmoQuest. Hey, Pamela. How you doing?

Dr. Gay: I am doing well. It is starting to be fall. We have experienced the equinox. RA has reset to its zero point. Life is good.

Fraser: Unless you are the space launch system.

Dr. Gay: That is my Gen X, constantly pessimistic joy of the week because it's just sort of like – just sit back, eat popcorn, and watch a dance. It's been back and forth and back and forth, going to launch, not going to launch,

Fraser: I don't feel any of that. I feel just the anxiety of the tens of thousands of people who worked on this. And they really need it to launch to restore their honor. I feel for them. And I want this thing to fly. I don't want it to fly very often. I don't want it to fly beyond the number of times they've built this. But it's already built. And now I want it to fly.

Dr. Gay: Yes. It deserves to launch. But I can enjoy the dance.

Fraser: Speaking of space flight, it's been about 65 years since the Soviets launched the first orbital satellite into low Earth orbit, Sputnik 1. Now there are thousands of satellites in orbit with tens of thousands on the way. Let's look at the impact that Sputnik had on the history of space flight. All right. So, first question then. What is the actual exact date of the anniversary?

Dr. Gay: October 4th, 1957. We are at 65 years. And it's kinda glorious because that means three generations of people have got to benefit from space flight.

Fraser: Fourteen years before I was born, more like 16 for you.

Dr. Gay: Yeah, I'm a baby.

Fraser: So, really, our lifetimes have been space flight. There's been space flight happening for our entire lives.

Dr. Gay: Now the story of Sputnik is a really cool one. What was really cool about this is the leaders of the two countries were really trying to both one up themselves. First, the Soviet leader and then Eisenhower here in the US said that in the Geophysical Year of science, we are going to launch something into space. And the Soviets got there first. And they really wanted to make a splash with what they were doing.

So, Sputnik, which is just like 20-something inches wide and with these couple of feet long antennae, it launched. And it wasn't just a spot in the sky with its highly polished outer shell, it was also transmitting at 20 and 40 MHz, which are frequencies that, well, any ham radio operator can listen to. So, as it went around the planet, every 0.3 seconds either a 20 Hz signal or a 40 Hz signal came. They were alternating the two so that they could actually study our ionosphere and other aspects of our atmosphere.

And anyone could just go outside, look up, see this strange new traveler. And the name “Sputnik” actually means travel together. And they could use a ham radio to listen. And back then, ham radios were much more common than they are today because…

Fraser: No internet.

Dr. Gay: Right. No internet, exactly. So, it's just kind of amazing.

Fraser: So, the purpose of Sputnik, literally, was to just go “beep” in those radio spectres.

Dr. Gay: Yes, to be “beep” over and over and over in those radio spectres. And it actually caused an entire generation of children here in the US to say, “All right, I'm gonna do something that no one else has ever done before. I'm going to figure out how to make a rocket rocket.” And I think that the most famous group of humans to ever do this is a group that was called the “Rocket Boys.” And this is where we start talking about – he always went by Sonny – Sonny Hickam. Quentin Wilson, Jimmy O'Dell Carroll.

Fraser: Homer Hickam.

Dr. Gay: Homer Hickam. But he actually in real life goes by “Sonny” because he's the second in his family.

Fraser: Right.

Dr. Gay: So, Homer Hickam, Jr., in reality, people just call him “Sonny.” So, there was this whole group of kids. It started with just four, the four you in the movie October Skies. But the next year there were six of them. And what I really love is they had the Big Creek Missile Agency. It was what they called their collection of people that were working to build rockets and go to the science fair.

Fraser: Did you know that Rocket Boys is an anagram for October Sky?

Dr. Gay: No. No, I did not.

Fraser: I don't know if anagram is the right word. But if you scramble the letters between October Sky and Rocket Boys, it's the same letters.

Dr. Gay: I learned something. I'm one of the 10,000.

Fraser: There you go. So, when were they building their rockets?

Dr. Gay: They were doing it right there in the 1950s. It was one of these – see the launch in October, work on science fair project for the school year, work on science fair project for the next school year, get accused of triggering fires they didn't actually trigger.

Fraser: Right.

Dr. Gay: So, they were doing this as teenagers in high school. And Sonny Hickam went on to – he's a veteran of Vietnam. He had a career before going into NASA. But he finally managed to get a job at Marshall Space Flight Center in 1991 as an aerospace engineer. And he was the person who trained the first Japanese astronauts to ever go into space. He assisted with the neutral buoyancy tank that anyone who has ever been to Space Camp has gone to see.

And, eventually, he got to train the astronaut crews for everything from Space Lab to repairing the Hubble Space Telescope and repairing Solar Max. He was one of those people that just saw how to make things work and also had the soft skills of knowing how to teach other people to make things work. And then he wrote a whole bunch of books. Go find them.

Fraser: Right, right. So, Homer Hickam and his crew. What were some of the other ways that Sputnik inspired the modern space exploration race?

Dr. Gay: Space race. Space race is clearly the right word. And when Sputnik took off, the US didn't think we were gonna be beat. So, this led to an acceleration of transforming missiles into rockets. And this was actually something that Wernher von Braun had really been looking forward to. So, for the crew down at Marshall Space Flight Center, that Sputnik launch was a chance to say, “Hi, please give us all the money we actually need to get a spacecraft into space.” And we did it.

And this started the constant one-upmanship between the two nations where Russia was the first to get into space. Russia was the first to do a whole lot of things. They weren't the first to Mars. Mars likes to defeat them.

Fraser: Right. But after Sputnik, the Americans launched theirs. Was it Explorer 1, the first American satellite? But then the Soviets put a human into orbit with Yuri Gagarin, and that was a surprise.

Dr. Gay: Yes.

Fraser: And then they had the first woman in orbit. They did a ton of things one after the other demonstrating that they were masters of space flight relatively speaking.

Dr. Gay: And then the Soviets, as part of their space race, helped other nations like China start to get involved. And we here in the US have helped other nations; partnering with the European Space Agency, partnering with the Indian Space Agency, now the Italian Space Agency on the DART mission.

So, what we've been seeing is this competition between groups of nations to do amazing scientific exploration. And the recognition that we may have started with a single tiny satellite I could've picked up and walked away with to now working on heavy-lift rockets aimed at creating a permanent presence on the moon the way we have a permanent presence in lower Earth orbit.

Fraser: Potentially, a fully reusable two-stage rocket. What's amazing is you go back and you look at the pictures of the rockets envisioned by Wernher von Braun when he had his Mars project book where he was imagining humans flying to Mars and you look at the rocket, it looks exactly the same as the Starship, the stainless steel, the same general shape of the rocket itself. Everything is almost identical. It's kind of amazing how much.

And when you think about, they had figured out the basic laws of physics back in the 20s even with Goddard and the first round of people thinking about space flight. Even the Chinese 1000 years had figured out the basic physics of this process.

Dr. Gay: Yes, yes.

Fraser: And it was a matter of us not necessarily having the technology, the automation, the experience to make the reality live up to the dream. But we knew what a rocket should look like. We knew how much energy was required to carry X amount of mass into space, etcetera.

It's astonishing to me. I think I've mentioned this in previous shows that if you go back, every cool idea that you can think of right now, there is a paper from the 1960s from NASA that describes it. It has already been thought of, everything. Moon bases, moon rovers, Mars missions, Mars landers, inflatable habitats, artificial magnetospheres. Everything was already thought of back in the 1960s. They just couldn't make them happen yet, nuclear rockets, ion engines, everything.

Dr. Gay: The way I often think of it is as Leonardo da Vinci was to so many decades, centuries of inventions where he could draw the things that were yet to come, including helicopters, Wernher von Braun and the people that worked with him had that same futuristic creativity to see what needs to happen in a time when they couldn't actually make it happen.

And while it was a long time to go from Leonardo da Vinci's helicopter drawings to actually having helicopters, with Wernher von Braun, it's three generations.

Fraser: Also, Wernher von Braun was a Nazi.

Dr. Gay: Well, yeah.

Fraser: People are always like, yeah, but he was a Nazi. Yeah, he was a Nazi.

Dr. Gay: Yes, he was a Nazi.

Fraser: Yeah, anyway.

Dr. Gay: He was part of the Paperclip project of people. Basically, the Soviets and the Americans split up the scientists that had been working to develop the V1 and other rockets in Germany. And with the Paperclip project in the US, they brought them here and basically gave them forgiveness for whatever else they had been responsible for in exchange for building rockets and putting America in space.

Fraser: Some of the chat is saying, “But he was our Nazi.” Yeah, he was bought and paid for, and he was forgiven and could then build rockets and carry the Americans forward into the modern age of space flight. Anyway, people always say it, as if we forget that. No, he totally was a Nazi.

Anyway, all right. So, I think the biggest ripple, implication of the first satellite launch was it leading to humans going to the moon, the Apollo program.

Dr. Gay: Yeah. And that was very much part of that space race, where if we could get someone to walk on the moon, that was the greatest challenge we can accomplish. And I think the importance of Kennedy's speech, which its anniversary was last week – he gave that speech at Rice University and made it clear that we are a nation of basically creative people. And we're going to take that creativity, that will, and that American drive to work hard. And we're gonna turn it into the greatest endeavor of humankind.


Ep. 655: 65 Years of Space: Sputnik 1 Anniversary (1) Ep. 655: 65 Jahre Weltraum: Jahrestag von Sputnik 1 (1) Ep. 655: 65 años de espacio: Aniversario del Sputnik 1 (1) Ep. 655 : 65 ans d'espace : Anniversaire du Spoutnik 1 (1) Ep. 655: 65 anni di spazio: Anniversario dello Sputnik 1 (1) Ep. 655: 65 jaar ruimtevaart: Verjaardag van de Spoetnik 1 (1) Ep. 655: 65 lat w kosmosie: Rocznica Sputnika 1 (1) Episódio 655: 65 Anos de Espaço: Aniversário do Sputnik 1 (1)

Fraser:                         __Astronomy Cast__, Episode 655: 65 Years of Space and the Sputnik 1 Anniversary. Welcome to __Astronomy Cast__, our weekly facts-based journey through the cosmos where we help you understand not only what we know but how we know what we know. I'm Fraser Cain. I'm the publisher of __Universe Today__. I've been a space and astronomy journalist for over 20 years.

With me, as always, is Dr. Pamela Gay, a senior scientist for the Planetary Science Institute and the Director of CosmoQuest. Hey, Pamela. How you doing?

Dr. Gay:                      I am doing well. It is starting to be fall. We have experienced the equinox. RA has reset to its zero point. Life is good.

Fraser:                         Unless you are the space launch system.

Dr. Gay:                      That is my Gen X, constantly pessimistic joy of the week because it's just sort of like – just sit back, eat popcorn, and watch a dance. It's been back and forth and back and forth, going to launch, not going to launch,

Fraser:                         I don't feel any of that. I feel just the anxiety of the tens of thousands of people who worked on this. And they really need it to launch to restore their honor. I feel for them. And I want this thing to fly. I don't want it to fly very often. I don't want it to fly beyond the number of times they've built this. But it's already built. And now I want it to fly.

Dr. Gay:                      Yes. It deserves to launch. But I can enjoy the dance.

Fraser:                         Speaking of space flight, it's been about 65 years since the Soviets launched the first orbital satellite into low Earth orbit, Sputnik 1. Now there are thousands of satellites in orbit with tens of thousands on the way. Let's look at the impact that Sputnik had on the history of space flight. All right. So, first question then. What is the actual exact date of the anniversary?

Dr. Gay:                      October 4th, 1957. We are at 65 years. And it's kinda glorious because that means three generations of people have got to benefit from space flight.

Fraser:                         Fourteen years before I was born, more like 16 for you.

Dr. Gay:                      Yeah, I'm a baby.

Fraser:                         So, really, our lifetimes have been space flight. There's been space flight happening for our entire lives.

Dr. Gay:                      Now the story of Sputnik is a really cool one. What was really cool about this is the leaders of the two countries were really trying to both one up themselves. First, the Soviet leader and then Eisenhower here in the US said that in the Geophysical Year of science, we are going to launch something into space. And the Soviets got there first. And they really wanted to make a splash with what they were doing.

So, Sputnik, which is just like 20-something inches wide and with these couple of feet long antennae, it launched. And it wasn't just a spot in the sky with its highly polished outer shell, it was also transmitting at 20 and 40 MHz, which are frequencies that, well, any ham radio operator can listen to. So, as it went around the planet, every 0.3 seconds either a 20 Hz signal or a 40 Hz signal came. They were alternating the two so that they could actually study our ionosphere and other aspects of our atmosphere.

And anyone could just go outside, look up, see this strange new traveler. And the name “Sputnik” actually means travel together. And they could use a ham radio to listen. And back then, ham radios were much more common than they are today because…

Fraser:                         No internet.

Dr. Gay:                      Right. No internet, exactly. So, it's just kind of amazing.

Fraser:                         So, the purpose of Sputnik, literally, was to just go “beep” in those radio spectres.

Dr. Gay:                      Yes, to be “beep” over and over and over in those radio spectres. And it actually caused an entire generation of children here in the US to say, “All right, I'm gonna do something that no one else has ever done before. I'm going to figure out how to make a rocket rocket.” And I think that the most famous group of humans to ever do this is a group that was called the “Rocket Boys.” And this is where we start talking about – he always went by Sonny – Sonny Hickam. Quentin Wilson, Jimmy O'Dell Carroll.

Fraser:                         Homer Hickam.

Dr. Gay:                      Homer Hickam. But he actually in real life goes by “Sonny” because he's the second in his family.

Fraser:                         Right.

Dr. Gay:                      So, Homer Hickam, Jr., in reality, people just call him “Sonny.” So, there was this whole group of kids. It started with just four, the four you in the movie __October Skies__. But the next year there were six of them. And what I really love is they had the Big Creek Missile Agency. It was what they called their collection of people that were working to build rockets and go to the science fair.

Fraser:                         Did you know that Rocket Boys is an anagram for October Sky?

Dr. Gay:                      No. No, I did not.

Fraser:                         I don't know if anagram is the right word. But if you scramble the letters between October Sky and Rocket Boys, it's the same letters.

Dr. Gay:                      I learned something. I'm one of the 10,000.

Fraser:                         There you go. So, when were they building their rockets?

Dr. Gay:                      They were doing it right there in the 1950s. It was one of these – see the launch in October, work on science fair project for the school year, work on science fair project for the next school year, get accused of triggering fires they didn't actually trigger.

Fraser:                         Right.

Dr. Gay:                      So, they were doing this as teenagers in high school. And Sonny Hickam went on to – he's a veteran of Vietnam. He had a career before going into NASA. But he finally managed to get a job at Marshall Space Flight Center in 1991 as an aerospace engineer. And he was the person who trained the first Japanese astronauts to ever go into space. He assisted with the neutral buoyancy tank that anyone who has ever been to Space Camp has gone to see.

And, eventually, he got to train the astronaut crews for everything from Space Lab to repairing the Hubble Space Telescope and repairing Solar Max. He was one of those people that just saw how to make things work and also had the soft skills of knowing how to teach other people to make things work. And then he wrote a whole bunch of books. Go find them.

Fraser:                         Right, right. So, Homer Hickam and his crew. What were some of the other ways that Sputnik inspired the modern space exploration race?

Dr. Gay:                      Space race. Space race is clearly the right word. And when Sputnik took off, the US didn't think we were gonna be beat. So, this led to an acceleration of transforming missiles into rockets. And this was actually something that Wernher von Braun had really been looking forward to. So, for the crew down at Marshall Space Flight Center, that Sputnik launch was a chance to say, “Hi, please give us all the money we actually need to get a spacecraft into space.” And we did it.

And this started the constant one-upmanship between the two nations where Russia was the first to get into space. Russia was the first to do a whole lot of things. They weren't the first to Mars. Mars likes to defeat them.

Fraser:                         Right. But after Sputnik, the Americans launched theirs. Was it Explorer 1, the first American satellite? But then the Soviets put a human into orbit with Yuri Gagarin, and that was a surprise.

Dr. Gay:                      Yes.

Fraser:                         And then they had the first woman in orbit. They did a ton of things one after the other demonstrating that they were masters of space flight relatively speaking.

Dr. Gay:                      And then the Soviets, as part of their space race, helped other nations like China start to get involved. And we here in the US have helped other nations; partnering with the European Space Agency, partnering with the Indian Space Agency, now the Italian Space Agency on the DART mission.

So, what we've been seeing is this competition between groups of nations to do amazing scientific exploration. And the recognition that we may have started with a single tiny satellite I could've picked up and walked away with to now working on heavy-lift rockets aimed at creating a permanent presence on the moon the way we have a permanent presence in lower Earth orbit.

Fraser:                         Potentially, a fully reusable two-stage rocket. What's amazing is you go back and you look at the pictures of the rockets envisioned by Wernher von Braun when he had his Mars project book where he was imagining humans flying to Mars and you look at the rocket, it looks exactly the same as the Starship, the stainless steel, the same general shape of the rocket itself. Everything is almost identical. It's kind of amazing how much.

And when you think about, they had figured out the basic laws of physics back in the 20s even with Goddard and the first round of people thinking about space flight. Even the Chinese 1000 years had figured out the basic physics of this process.

Dr. Gay:                      Yes, yes.

Fraser:                         And it was a matter of us not necessarily having the technology, the automation, the experience to make the reality live up to the dream. But we knew what a rocket should look like. We knew how much energy was required to carry X amount of mass into space, etcetera.

It's astonishing to me. I think I've mentioned this in previous shows that if you go back, every cool idea that you can think of right now, there is a paper from the 1960s from NASA that describes it. It has already been thought of, everything. Moon bases, moon rovers, Mars missions, Mars landers, inflatable habitats, artificial magnetospheres. Everything was already thought of back in the 1960s. They just couldn't make them happen yet, nuclear rockets, ion engines, everything.

Dr. Gay:                      The way I often think of it is as Leonardo da Vinci was to so many decades, centuries of inventions where he could draw the things that were yet to come, including helicopters, Wernher von Braun and the people that worked with him had that same futuristic creativity to see what needs to happen in a time when they couldn't actually make it happen.

And while it was a long time to go from Leonardo da Vinci's helicopter drawings to actually having helicopters, with Wernher von Braun, it's three generations.

Fraser:                         Also, Wernher von Braun was a Nazi.

Dr. Gay:                      Well, yeah.

Fraser:                         People are always like, yeah, but he was a Nazi. Yeah, he was a Nazi.

Dr. Gay:                      Yes, he was a Nazi.

Fraser:                         Yeah, anyway.

Dr. Gay:                      He was part of the Paperclip project of people. Basically, the Soviets and the Americans split up the scientists that had been working to develop the V1 and other rockets in Germany. And with the Paperclip project in the US, they brought them here and basically gave them forgiveness for whatever else they had been responsible for in exchange for building rockets and putting America in space.

Fraser:                         Some of the chat is saying, “But he was our Nazi.” Yeah, he was bought and paid for, and he was forgiven and could then build rockets and carry the Americans forward into the modern age of space flight. Anyway, people always say it, as if we forget that. No, he totally was a Nazi.

Anyway, all right. So, I think the biggest ripple, implication of the first satellite launch was it leading to humans going to the moon, the Apollo program.

Dr. Gay:                      Yeah. And that was very much part of that space race, where if we could get someone to walk on the moon, that was the greatest challenge we can accomplish. And I think the importance of Kennedy's speech, which its anniversary was last week – he gave that speech at Rice University and made it clear that we are a nation of basically creative people. And we're going to take that creativity, that will, and that American drive to work hard. And we're gonna turn it into the greatest endeavor of humankind.