In Memoriam: Apollo 1

Today marks the sad anniversary of the day we lost the crew of Apollo 1.

On January 27, 1967, heroes Virgil I. “Gus” Grissom, Edward H. White II, and Roger B. Chaffee, were conducting a launch rehearsal test in an Apollo Command Module. Their mission was to be the first crewed mission of the Apollo program, which would ultimately put humans on the Moon. These three men paid the ultimate sacrifice so that humanity could spread its reach into the cosmos.

Apollo 1 Mission Patch

Apollo 1 Mission Patch – Credit: NASA

Virgil Ivan “Gus” Grissom

Virgil "Gus" Grissom

Virgil “Gus” Grissom – Source: NASA/Public Domain

Gus Grissom was born on April 3, 1926. He joined the United States Army straight out of high school, in the midst of Word War II. His early military career was spent as a clerk at Boca Raton Army Airfield. Grissom was discharged after the war ended, a few months after marrying his wife, Betty Moore. Utilizing his G.I. Bill, he earned a Bachelor of Science in Mechanical Engineering from Purdue University. Upon graduation, Grissom re-enlisted into the newly-formed United States Air Force, and began flight training. He received his pilot wings in 1951. Grissom flew 100 combat missions during the Korean War. He requested to fly another 25 flights in Korea, but his request was denied. For his service, he was promoted to First Lieutenant and was awarded the Distinguished Flying Cross.

Grissom went on to earn a Bachelor of Science in Aeromechanics from the U.S. Air Force Institute of Technology, before enrolling at the USAF Test Pilot school. He was assigned as a test pilot of the fighter branch at Wright-Patterson AFB.

In 1958, Grissom received a “Top Secret”-classified letter, instructing him to report to an address in Washington D.C. in civilian clothing. He was ultimately one of 110 military test pilots who were invited to learn more about the space program and Project Mercury. Though he knew competition would be extremely fierce, he submitted to the program and began a rigorous set of physical and mental examinations. On April 13, 1959, Grissom received notice that he had been selected as one of the seven astronauts for Project Mercury.

Gus Grissom became the second American in space, when his ‘Liberty Bell 7’ capsule flew a 15 minute and 37 second sub-orbital flight. Grissom flew a second flight as a member of Project Gemini, in March of 1965, becoming the first NASA astronaut with two spaceflights under his belt.

His third flight would have him as commander of the Apollo 1 mission.

Roger Bruce Chaffee

Roger Chaffee

Roger Chaffee – Source: NASA/Public Domain

Roger Bruce Chaffee was born on February 15, 1935 in Grand Rapids, Michigan. In his youth, he was the quintessential Boy Scout. He excelled in the program, earning many badges that typically weren’t earned by members as young as he was. He continued in the program as an Eagle Scout, earning ten more merit badges. His participation in the scouts was cited as a benefit to his astronaut training that he’d participate in years later–particularly during survival training missions.

In his youth, he gained an early love of flying and had a natural affinity for mechanical and artistic skills. Chaffee graduated in the top fifth of his high school class and accepted a Naval Reserve Officers Training Corps scholarship, using it to enroll in the Illinois Institute of Technology. After his first year, he combined “his love of flying with his aptitude in science and mathematics in order to pursue a degree in aeronautical engineering.” He applied for a transfer and was accepted into Purdue University, to enter its renowned aeronautical engineering program. As a junior at Purdue, he met his future wife, Martha Horn.

Chaffee earned his BS in aeronautical engineering in June, 1957, and completed his Naval training in August of the same year. He began military flight training and learned to fly the T-34, T-28, and F9F Cougar, advancing quickly through the programs. He earned his wings in 1959 and flew numerous missions including reconnaissance duties, among them taking aerial photography of the Cuban missile buildup. Chaffee continued to work hard towards advancement.

Ever since the first seven Mercury astronauts were named, I’ve been keeping my studies up… At the end of each year, the Navy asks its officers what type of duty they would aspire to. Each year, I indicated I wanted to train as a test pilot for astronaut status.” (On Course to the Stars – C. Chrysler/R. Chaffee)

When NASA began recruiting for Astronaut Group 3, Chaffee was included as one of the initial pool of 1,800 applicants. He continued to work on his Master’s in engineering, while undergoing the multitude of invasive tests conducted on astronaut candidates. On October 18, 1963, Chaffee was officially admitted to the astronaut corps along with 13 other pilots.

During the Gemini program, Chaffee served as capsule communicator (CAPCOM) for the Gemini 3 and 4 missions.

Apollo 1 would have been his first space mission.

Edward Higgins “Ed” White II

Edward Higgens White

Edward Higgens White – Source: Public Domain

Ed White was born on November 14, 1930 in San Antonio, Texas. Like Chaffee, White was also active in the Boy Scouts of America. His father was a major general in the Air Force, who nurtured his son’s interest in flying. After graduating high school in 1948, he was accepted into the United States Military Academy at West Point where he earned a Bachelor of Science degree. While at West Point, he met Patricia Finegan, whom he would marry in 1953. He was commissioned as a Second Lieutenant in the Air Force when he began his flight training. After earning his wings, he was assigned to the 22nd Fighter Day Squadron at Bitburg Air Base in West Germany. He spent three and a half years flying missions in defense of NATO.

White was an excellent athlete, and record-setting hurdler. He missed a chance to join the 1952 U.S. Olympic team by only the narrowest of margins.

White returned to the U.S. in 1958 and enrolled in the University of Michigan. There, he earned a Master of Science degree in Aeronautical Engineering, before entering test pilot training in 1959. After completing the program, he was transferred to Wright-Patterson Air Force base, where he served as an experimental test pilot and training captain in the Aeronautical Systems Division. During his military career, he flew more than 3,000 hours and earned the rank of Lieutenant Colonel.

White was one of the nine men chosen for Astronaut Group 2, and was selected to fly into space on the Gemini 4 mission. That mission would have White and Command Pilot James McDivitt spending four days in Earth orbit, from June 3-7, 1965. During the mission, White became the first American to conduct a spacewalk, as he enjoyed 21 minutes outside of the Gemini capsule. White had to essentially be ordered back into the craft, remarking that re-entering the capsule was the “saddest moment of his life”.

Ed White, conducting America's first spacewalk

Ed White, conducting America’s first spacewalk – Source: NASA / James McDivitt

Upon Gemini 4’s return to Earth, “President Johnson promoted White to the rank of lieutenant colonel and presented him with the NASA Exceptional Service Medal and the U.S. Air Force Senior Astronaut Wings.

Ed White’s next mission assignment was as senior pilot for Apollo 1.

Apollo 1

Apollo 1, initially designated AS-204, was slated to be the first crewed mission of the Apollo program which carried the ultimate goal of landing humans on the Moon and returning them safely back to Earth. Gus Grissom, Roger Chaffee, and Ed White carried the honors of being assigned the first mission of the program. They were to spend up to 14 days in Earth orbit, while testing many systems implemented with the new program.

On January 27, 1967, the three crew members were conducting a rehearsal for their upcoming mission. An electric spark ignited the high pressure pure oxygen environment inside the capsule, and the flammable materials inside quickly caught fire. The hatch was sealed, and the pressure differential between the inside and outside of the capsule made it impossible for the crew to escape. The three heroes didn’t have a chance to make it out alive.

Roger Chaffee, Gus Grissom, and Ed White gave their lives that day, becoming the first casualties of the U.S. space program. They gave them not only to their country, but to all of humanity. Their sacrifice made future flights safer and successful.

A plaque in their honor is affixed to the launch pedestal of Launch Complex 34, the site of the fire. It reads:

IN MEMORY

OF

THOSE WHO MADE THE ULTIMATE SACRIFICE

SO OTHERS COULD REACH FOR THE STARS

 

AD ASTRA PER ASPERA

(A ROUGH ROAD LEADS TO THE STARS)

 

GOD SPEED TO THE CREW

OF

APOLLO 1

 

Apollo 1 Crew. Left to right: White, Grissom, Chaffee - Public Domain/NASA

Apollo 1 Crew. Left to right: White, Grissom, Chaffee – Public Domain/NASA

 

F-1 Rocket Engine Recovery

They took rocket-grade kerosene and liquid oxygen, and turned it into 1.5 million pounds of thrust, 32 million horsepower, and made it possible to take the Apollo astronauts to the Moon. I’m talking about the Rocketdyne F-1 rocket engines used in the first stage of Saturn V — the only vehicle to take humans outside of low-Earth orbit.

Following launch, five F-1 engines would burn for about 2-and-one-half minutes, boosting the Saturn V and its payload to an altitude of nearly forty miles, and 55 miles downrange from Cape Kennedy. At that point, the first stage (S-1C) containing the F1 engines would separate from the rest of the Saturn V and fall back to Earth, crashing into the Atlantic Ocean where they would rest forever.

Separation of Apollo first stage from other two stages of the Saturn V.

Separation of the first (S-1C) stage containing the F-1 engines from the other two Saturn V stages, during Apollo 11.

(Image Credit: NASA)

At least, forever was how long we thought they would sit there….

Amazon.com founder, Jeff Bezos, recently announced that a “team of undersea pros” that he funded had found the most famous F-1 engines of all; the ones from Apollo 11 that launched humanity to the Moon, where the first humans would walk on another world. But finding them is just the start, Bezos Expeditions is planning on actually recovering one or more of the F-1s.

“We don’t know yet what condition these engines might be in – they hit the ocean at high velocity and have been in salt water for more than 40 years. On the other hand, they’re made of tough stuff, so we’ll see”, Bezos said in the announcement. He also pointed out that regardless of how long the engines have spent 14,000 feet below the surface of the Atlantic, they are still the sole property of NASA. He also stated that he had requested that NASA make available for display at the Museum of Flight in Seattle, Washington, the second F-1 his group manages to salvage (the first presumably would go to the Smithsonian).

NASA followed the announcement with a press release of their own, in which NASA Administrator Charles Bolden expressed his support for the project, and acknowledged the request to house a second (or the first, if the Smithsonian declines it) F-1 at Bezos’ requested facility.

“NASA does retain ownership of any artifacts recovered and would likely offer one of the Saturn V F-1 engines to the Smithsonian Institution’s National Air and Space Museum in Washington under long-standing arrangements with the institution as the holder of the national collection of aerospace artifacts.

“If the Smithsonian declines or if a second engine is recovered, we will work to ensure an engine or other artifacts are available for display at the Museum of Flight in Seattle, as Jeff requested in his correspondence with my office.”

As of yet, there hasn’t been an announced timeline, cost, or specific details released about the project; however, I personally suspect Bezos will have no problem pulling together the resources needed to tackle the feat.

Bezos ended the announcement with a quote that echoes my own heart when it comes to NASA’s ability to inspire:

NASA is one of the few institutions I know that can inspire five-year-olds. It sure inspired me, and with this endeavor, maybe we can inspire a few more youth to invent and explore.

Good luck, Bezos Industries. Thanks for taking the public treasure that NASA is and multiplying its inspiration for generations to come.


An Apollo 9 Anniversary

On this day in 1969, Commander Jim McDivitt, Command Module Pilot David Scott, and Lunar Module Pilot Rusty Schweickart blasted off from Kennedy Space Center for the 10-day Apollo 9 mission. Apollo 9 was the third manned-mission of the Apollo Program and tested many components critical for lunar landing that would occur two missions later with Apollo 11.

Just over four decades later and on the anniversary of its lift-off from Earth, I happen to find myself in San Diego, California where the Apollo 9 Command Module (nicknamed “Gumdrop” by its crew) is displayed at the San Diego Air and Space Museum. I was thrilled to take my family to pay tribute to such an important part of the world’s space program.

The first thing that jumps out at you when seeing an Apollo Command Module for the first time is its size; specifically, how small it is, considering three grown men spent most of their mission living in it.

Apollo 9 Command Module "Gumdrop" and Me

"Gumdrop" and yours truly.

But things really seem small when you take a look inside:

Interior of Apollo 9 Command Module "Gumdrop"

Interior view of "Gumdrop"

The interior offers what appears to be even less room than you have flying coach on a commercial airliner. My legs start to feel cramped after just looking at this picture, so I can only imagine what it must have felt like to spend days in there. I’m guessing that when NASA was recruiting its astronauts, claustrophobia was a disqualifier.

View of some of Gumdrop's controls

Detail of just a few of the seemingly-infinite number of switches and controls.

I spent a lot of time observing the intricate details on the exterior of the capsule as well. The capsule looks exactly how you’d expect, for something that had to withstand temperatures of a couple of hundred degrees below zero (F) on the low end, all the way up to 5,000-degrees (F) on the high end. And that’s to say nothing about the other forces involved in launch, orbit, and reentry.

Detail of "Gumdrop's" Roll Engines

Detail of "Gumdrop's" Roll Engines

The capsule’s heat shield was made of an ablative material — meaning it “turns white hot, chars, and then melts away” during reentry. Amazingly, this heat shield was only two inches at its thickest point, and a mere half inch in some spots! It must have provided quite a light-show for anyone watching the intimidating, yet intended, fiery break-away of the heat shield.

Exterior detail of "Gumdrop"

Exterior detail of "Gumdrop".

To top off the exhibit, there were many other displays related to, not only Apollo 9, but other NASA manned spaceflight programs as well, which I’ll save for another time.

My only gripes about the display were that I wished there were more items and information (though, I could probably never be satisfied in this regard) and more thought put into the ambiance of the displays (for example, rather than controlled lighting, many of the exhibits were lit by very large windows which created a lot of glare that was difficult to see through on some of the displays). Also, I was sort of hoping there would have been some sort of special recognition of today being Apollo 9’s lift-off anniversary since that mission is the focus of one of their major exhibits; but now I’m just being picky.

All said and done, spending a few hours up close and personal with Gumdrop and the associated displays was a wonderful way to celebrate the anniversary of the lift-off of Apollo 9.

Apollo 9 Mission Insignia

Apollo 9 Mission Insignia