Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

A detail of the heat shield on the Apollo 11 Command Module.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Apollo 13 Command Module on display at the Cosmosphere.

Hutchinson, Kansas

Friday afternoon 28 July 2023

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Here is the command module orbiting above the moon.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Fernbank Science Center

Before you is the Command Module of the Apollo 6. If you look under the capsule you will see a series of holes. These holes were drilled to investigate how the heat shield held up after this capsule re-entered the Earth's atmosphere.

The Apollo 6 mission provided a second rehearsal for launching the massive Saturn V rocket. Scientists and engineers were testing the "staging" of a giant rocket to be sure each section would work properly. An important mission objective was to check out all systems before sending astronauts into space. The vehicle carried a full payload, including a mock-up lunar module, and was to test the capsule's heat shield to see if it could withstand re-entry speeds.

Initially, the launch seemed to be fine. But approximately two minutes into the flight, the first stage's five F-1 engines developed serious thrust fluctuations that caused the rocket to bounce like a pogo stick for 30 seconds. These oscillations were so intense that an airborne chase plane's cameras recorded pieces of the adapter stage (housing the lunar module) falling off of the vehicle. Such low-frequency vibrations (known as "pogo effect") exceeded the engineering/safety design criteria of the Apollo 6 Command Module. Had astronauts been onboard the spacecraft, the mission would have been aborted by jettisoning the capsule away from the failing rocket.

Although the oscillations stopped once the first stage was discarded, the vehicles second stage performance was also less than perfect. Two of the stage's five J-2 engines failed, causing the remaining three engines to burn for a longer period of time than planned. As a result, the second stage ran out of fuel before reaching the desired 100 mile circular orbit.

To compensate the Saturn's third stage burned longer and placed the spacecraft into an unplanned 110 by 230 mile elliptical orbit. NASA engineers left Apollo 6 in this "parking orbit for two revolutions around the Earth to assess the situation and perform various system checks. When flight controllers attempted to fire the third stage again, to simulate the flight to the Moon, the J-2 engine failed to restart.

The issues with the Saturn V's three stages altered the mission, and it was decided that after separation from the third stage, the Service Module's engine would burn for seven minutes, pushing the Apollo 6 capsule to an altitude of almost 14,000 miles. At such an altitude, enough re-entry speed could then be acquired to simulate an Apollo spacecraft returning from the Moon. The capsule's heat shield withstood the fireball created by a 22,000 mile per hour plunge into the Earth's atmosphere. Apollo 6 splashed down in the Pacific Ocean, completing its 10 hour perilous space odyssey, and was recovered by the crew of the U.S.S. Okinawa.

Destination Moon, The Apollo 11 Mission, at, The Museum of Flight Seattle WA, Apollo 11 Command Module Columbia, on loan from the Smithsonian thru Sept. 2nd. 2019

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Florida Trip Oct 2016, visiting NASA, Universal Islands of Adventure, Sebastian Inlet

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Fernbank Science Center

Before you is the Command Module of the Apollo 6. If you look under the capsule you will see a series of holes. These holes were drilled to investigate how the heat shield held up after this capsule re-entered the Earth's atmosphere.

The Apollo 6 mission provided a second rehearsal for launching the massive Saturn V rocket. Scientists and engineers were testing the "staging" of a giant rocket to be sure each section would work properly. An important mission objective was to check out all systems before sending astronauts into space. The vehicle carried a full payload, including a mock-up lunar module, and was to test the capsule's heat shield to see if it could withstand re-entry speeds.

Initially, the launch seemed to be fine. But approximately two minutes into the flight, the first stage's five F-1 engines developed serious thrust fluctuations that caused the rocket to bounce like a pogo stick for 30 seconds. These oscillations were so intense that an airborne chase plane's cameras recorded pieces of the adapter stage (housing the lunar module) falling off of the vehicle. Such low-frequency vibrations (known as "pogo effect") exceeded the engineering/safety design criteria of the Apollo 6 Command Module. Had astronauts been onboard the spacecraft, the mission would have been aborted by jettisoning the capsule away from the failing rocket.

Although the oscillations stopped once the first stage was discarded, the vehicles second stage performance was also less than perfect. Two of the stage's five J-2 engines failed, causing the remaining three engines to burn for a longer period of time than planned. As a result, the second stage ran out of fuel before reaching the desired 100 mile circular orbit.

To compensate the Saturn's third stage burned longer and placed the spacecraft into an unplanned 110 by 230 mile elliptical orbit. NASA engineers left Apollo 6 in this "parking orbit for two revolutions around the Earth to assess the situation and perform various system checks. When flight controllers attempted to fire the third stage again, to simulate the flight to the Moon, the J-2 engine failed to restart.

The issues with the Saturn V's three stages altered the mission, and it was decided that after separation from the third stage, the Service Module's engine would burn for seven minutes, pushing the Apollo 6 capsule to an altitude of almost 14,000 miles. At such an altitude, enough re-entry speed could then be acquired to simulate an Apollo spacecraft returning from the Moon. The capsule's heat shield withstood the fireball created by a 22,000 mile per hour plunge into the Earth's atmosphere. Apollo 6 splashed down in the Pacific Ocean, completing its 10 hour perilous space odyssey, and was recovered by the crew of the U.S.S. Okinawa.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

This has been around the far side of the moon...

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.

Tom R. Chambers edited/enhanced Apollo images and provided text to produce a series for classroom teaching. It is in book and slide show format. Images and text courtesy of NASA.

Chambers was a research analyst at the Lunar Receiving Laboratory during Project Apollo, 1969-1972.