13 MORE Things That Saved Apollo 13, part 9: Avoiding Gimbal Lock

It was an unlikely case, having an Apollo command ship disabled thousands of miles from Earth. But during the Apollo 9 mission, the crew had actually conducted a test of firing the Lunar Module’s engines while it was docked to the Command Module. It turned out to be fortuitous to have considered such a situation, but Apollo 9 didn’t have to perform the type of maneuvering under the myriad of conditions Apollo 13 faced.

Steering was among the crucial threats for Jim Lovell and his crew. Without the command ship’s thrusters to steer, only the lander’s were available, and flying the crippled Apollo 13 spacecraft stack and keeping it on the right trajectory was a huge challenge.

During a normal mission, the ship’s computers allowed for much of the navigation, but the Apollo 13 crew had to fly “by hand.” The Command Module was shut down, and the LM’s limited battery power required the shutting down most of its systems, so even backup propulsion and navigation functions were unavailable. Lovell had to struggle to bring the unwieldy two-vehicle craft under control.

Apollo 13 commander Lovell with a model Lunar module. Image credit: NASA
The lander’s steering was fashioned to handle only its mass and center of mass location. Now it had to steer the entire assemblage, which included the dead mass of the Command and Service Module as well as the lander. Then there was oxygen venting from the damaged tanks in the SM. This all contributed to putting the stack through contortions of pitch, roll, and yaw.

In his seminal book, “A Man on the Moon,” author Andrew Chaikin succinctly captured the scene:

Even now, oxygen spewed from Odyssey’s side like blood from a harpooned whale. The escaping gas acted like a small rocket, fighting Lovell’s efforts to stabilize the joined craft – which the astronauts called “the stack” – with Aquarius’s thrusters. Lovell soon found that trying to control the stack from the lander was strange and awkward, like steering a loaded wheelbarrow down the street with a long broom handle. When he nudged the hand controller the joined craft wobbled unpredictably. It was, Lovell would say later, like learning to fly all over again. And he had to learn fast, because if he let the spacecraft drift uncontrolled, there was a danger that one of Aquarius’s gyros would be immobilized – a condition called gimbal lock that would ruin the alignment of the navigation platform. With no way of sighting in the stars, there would be no hope of realigning it….

“I can’t take that doggone roll out, “Lovell said. Throughout the next 2 hours Lovell wrestled with his unwieldy craft, as the time for the free-return maneuver approached. He wondered if Aquarius would be able to point them toward home, and whether it would last long enough to get them there. Lovell and his crew had become the first astronauts to face the very real possibility of dying in space.

From “A Man on the Moon,” chapter 7, “The Crown of an Astronaut’s Career”
by Andrew Chaikin
Used by permission
.

One of the items discussed in the original “13 Things That Saved Apollo 13” was how well suited rookie Apollo crewman Jack Swigert was to the Apollo 13 mission, as he was said to have basically ‘wrote the book’ on Command Module malfunctions. Likewise, says NASA engineer Jerry Woodfill, was Commander Jim Lovell’s ability as Apollo 13’s helmsman.

“Tales are often shared about Lovell’s skills as a naval aviator,” said Woodfill, “making aircraft carrier deck landings in the dark with a malfunctioning display, or in storm-tossed seas.”

Being able to judge aircraft descent rates and attitude with respect to a wave-tossed carrier deck was a challenge. Woodfill said this ideally trained Lovell for avoiding gimbal-lock on Apollo 13.

An annotated image of the Apollo Flight Director Attitude Indicator, commonly called the navigation 8-ball. Via Kerbal Space Program.

“Gimbal-lock meant the guidance system could no longer trust its computer,” explained Woodfill. “The guidance system’s orthogonal gyroscopes (gyros) judged the degree of pitch, roll, and yaw. Gimbal-lock exceeded the system’s ability to gauge position. Such an instance could be compared to an automobile’s tires slipping on an icy road. Steering becomes almost useless in such an event.”

Historian and journalist Amy Shira Teitel recently posted this video in regards to gimbal lock and Apollo 13:

Then, later came a second dire “steering” challenge to Lovell and his crew. Apollo ships required a rotating maneuver about their longest axis known as Passive Thermal Control (PTC), nicknamed the rotisserie, to protect one part of the spacecraft from continually being baked by the Sun. Normally, this was done by the CM’s computer, and the LM’s computer didn’t have the software to perform this operation. Lovell had to maneuver the unwieldy ship by hand nearly every hour to perform the “slow motion barbeque spin” as Chaikin called it. Without the CM’s orientation control thrusters and having the center of gravity extremely off-center with respect to the lander’s control system, it made the situation problematical.

“Lovell seemed to have the ability to quickly adapt to difficult situations,” said Woodfill, “and the knack of quickly coming up with solutions to problems.”

But that’s part of the makeup of being a test pilot and what distinguished the men who were chosen to be astronauts in the Apollo program.

“As great a pilot as Jim Lovell was, I think any of the Apollo commanders could have handled that situation from a piloting point of view,” Chaikin told Universe Today via phone. “One benefit that Lovell brought to the situation was his calm, composed personality—a real asset during that entire ordeal.”

As Chaikin quoted original Apollo 13 crew member Ken Mattingly in “A Man on the Moon,” if Apollo 13 had to happen to any spacecraft commander, there wasn’t anyone who could have handled it better than Jim Lovell.

Nancy Atkinson with Jim Lovell in 2010 at the Abraham Lincoln Presidential Museum.

Here’s an additional, more technical description of gimbal lock:

Previous articles in this series:

Introduction

Part 1: The Failed Oxygen Quantity Sensor

Part 2: Simultaneous Presence of Kranz and Lunney at the Onset of the Rescue

Part 3: Detuning the Saturn V’s 3rd Stage Radio

Part 4: Early Entry into the Lander

Part 5: The CO2 Partial Pressure Sensor

Part 6: The Mysterious Longer-Than-Expected Communications Blackout

Part 7: Isolating the Surge Tank

Part 8: The Indestructible S-Band/Hi-Gain Antenna

Find all the original “13 Things That Saved Apollo 13″ (published in 2010) at this link.

Apollo 13 images via NASA. Montage by Judy Schmidt.
Nancy Atkinson

Nancy has been with Universe Today since 2004, and has published over 6,000 articles on space exploration, astronomy, science and technology. She is the author of two books: "Eight Years to the Moon: the History of the Apollo Missions," (2019) which shares the stories of 60 engineers and scientists who worked behind the scenes to make landing on the Moon possible; and "Incredible Stories from Space: A Behind-the-Scenes Look at the Missions Changing Our View of the Cosmos" (2016) tells the stories of those who work on NASA's robotic missions to explore the Solar System and beyond. Follow Nancy on Twitter at https://twitter.com/Nancy_A and and Instagram at and https://www.instagram.com/nancyatkinson_ut/

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