Everything Everywhere Daily: History, Science, Geography & More - Lunar Orbit Rendezvous
Episode Date: August 7, 2020Have you ever been told to follow the chain of command or else? In most organizations with a hierarchy or with a bureaucracy, there is a set way in which things have to be done. If you have a suggesti...on or a complaint, you have to go to your immediate superior, and not jump over anyone’s head. If it wasn’t for one man jumping over the heads of his superiors and jeopardizing his job, we might never have landed on the moon. Learn more about your ad choices. Visit megaphone.fm/adchoices
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Have you ever been told to follow the chain of command or else?
In most organizations with a hierarchy or a bureaucracy, there is a set way in which things have to be done.
If you have a suggestion or a complaint, you have to go to your immediate superior and not jump over anyone's head.
If it wasn't for one man jumping over the heads of his superiors and jeopardizing his job, we might never have landed on the moon.
Learn more about lunar orbit rendezvous and how skipping the chain of command helped make the moon landing happen.
on this episode of Everything Everywhere Daily.
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When John F. Kennedy announced the goal of sending someone to the moon,
the idea had already been kicked around for several years.
Everything up until Kennedy's speech had been totally theoretical, however.
As the moon program was early in its planning stages,
the first thing you needed to figure out was the general strategy
for how they were going to pull it off.
There were two competing strategies for how to get to the moon.
The first was called direct descent.
The idea behind this was very simple.
You launch a really big spacecraft from Earth, the whole thing lands on the moon, the whole thing takes off from the moon, and comes back to Earth orbit.
The benefit to this approach is that it's very simple, and at the time this was being planned, things like orbital rendezvous still hadn't been tried.
The downside to this approach is that it requires a very big spacecraft and a whole lot of fuel to power the ship.
In fact, a rocket called Nova was proposed for such a mission that was even larger than the Saturn 5 rocket, which was eventually used,
and the Saturn 5 rocket was the largest rocket ever made.
The second strategy was called Earth orbit rendezvous.
The primary difference between this and direct ascent
is that you would do several smaller launches,
assemble the spacecraft in Earth orbit,
then basically send the assembled spacecraft to the moon,
land it, and bring it back to Earth orbit.
This didn't require as large of a rocket as direct ascent did,
but it would still require bringing a large craft to land on the moon
and all the fuel which is required.
This problem of getting to the moon was considered as far back as 1919 by a Russian engineer named Yuri Kondryuk.
He realized that the biggest problem was that of weight.
The more weight you carried with you, the more fuel you needed, which in turn was more weight, which required more fuel, etc.
He came up with the idea of a segmented spacecraft that only used the parts necessary for each step of the trip,
thereby minimizing weight and thus fuel.
This weight-saving strategy was called Lunar Orbit Rendezvous.
The leadership at NASA during the time they were considering their moon strategy did not have this option on the table.
In 1958, the Space Task Group also came up with the idea of Lunar Orbit Rendezvous, but the idea didn't catch on.
It was an engineer by the name of Tom Dolan who really believed in the idea.
He developed a full report indicating how it could be done.
He too got nowhere with the idea as no one in NASA believed it was possible.
Finally, the idea was championed by an engineer named John Hubeolt.
The main area of resistance in the early 1960s was the idea of orbital rendezvous.
It hadn't been done, and no one was even sure if it could be done.
Even at a theoretical level, it was a very difficult and complicated maneuver.
Many NASA officials thought it was so difficult and dangerous
that any proposal which relied on it, especially a rendezvous in moon orbit, was out of a question.
Hubolt was determined to get this idea into the right hands because he knew the success of the moon landing program depended on it.
This is where he decided to bypass the NASA hierarchy and go over the heads of his superiors.
He wrote a lengthy letter to NASA deputy administrator Robert Siemens, which started with the line,
somewhat as a voice in the wilderness, I would like to pass on a few thoughts.
In the letter he said, quote, do we want to go to the moon or not?
why is Nova with its ponderous size simply accepted, and why is a much less grandiose scheme involving rendezvous ostracized or put on the defensive?
I fully realize that contacting you in this manner is somewhat unorthodox, but the issues at stake are crucial enough to all of us that an unusual course is warranted.
It took two weeks for Siemens to apply, and he said, quote, it would be extremely harmful to our organization and to the country if our qualified staff were unduly limited by receiving.
restrictive guidelines, unquote. He promised Hubert that more attention would be given to lunar orbit
rendezvous. At first, the idea still encountered resistance, and some senior engineers would even
disparage him and his work to other senior NASA officials. However, over time, the science behind the
idea eventually won out. The requirements for direct ascent, or Earth orbit rendezvous, was just too
difficult, and lunar orbit rendezvous was the only thing that could realistically fit on a single
Saturn 5 rocket. One by one, NASA engineers and management began accepting the need for lunar orbit
rendezvous, and on July 11, 1962, NASA had a press conference where they announced their new
strategy. It worked. The lunar orbit rendezvous strategy is what every Apollo mission used to go to the
moon. The lunar module, which was eventually used, was approximately five times smaller than the
proposed direct ascent craft. Moreover, half of the lunar module was left on the moon,
further reducing the weight and fuel.
It's a credit to NASA that they were able to listen to all ideas and adopt what was best,
not just what was politically expedient.
John Hubolt wasn't fired or demoted.
In fact, he was given a medal of exceptional scientific achievement by NASA for his contributions.
He later penned a similar letter in 1981 to NASA director Chris Kraft about the dangers of the space shuttle's heat tiles
and how damaged tiles near the strut which connected to the large fuel tank could have devastating consequences.
It was damaged heat tiles which caused the loss of the space shuttle Columbia in 2003.
These ideas of lunar orbit rendezvous, Earth orbit rendezvous, and direct descent are not things
which are just relegated to history. NASA's new Artemis Moon program and work being done by
SpaceX have brought these ideas back to the forefront. This time, however, technology and mission
requirements have changed, and the current approach is towards a direct descent strategy. Now the goal
isn't just to save weight and fuel, but to create a spacecraft, which can be reused multiple times.
Executive producer of Everything Everywhere Daily is James Mackala. Special thanks to everyone who
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