Mary Sherman Morgan

For other people named Mary Morgan, see Mary Morgan (disambiguation).

Mary Sherman Morgan (November 4, 1921 – August 4, 2004) was a U.S. rocket fuel scientist credited with the invention of the liquid fuel Hydyne in 1957, which powered the Jupiter-C rocket that boosted the United States' first satellite, Explorer 1.^[1]

Mary Sherman Morgan
Born	Mary Sherman (1921-11-04)November 4, 1921 Ray, North Dakota
Died	August 4, 2004(2004-08-04) (aged 82)
Nationality	American
Alma mater	DeSales College
Spouse	George Richard Morgan
Engineering career
Employer(s)	Plum Brook Ordnance Works; North American Aviation
Projects	Redstone rocket
Significant design	Hydyne

Early life and education

The second youngest of six siblings, Mary Sherman was born to Michael and Dorothy Sherman on their farm in Ray, North Dakota. Her background was an impoverished farming household. She grew up in a family of bullying siblings and indifferent parents who kept her out of school to work on the farm. Social services stepped in and threatened to arrest Mary's father unless he allowed her to attend school. The social worker then provided her with riding lessons and a horse to attend her one-roomed school house.^[2] She hadn't attended any form of schooling until 9 years of age. ^[3]In 1939, she graduated as her high school's valedictorian. From these accolades, she was awarded a scholarship for college. She then enrolled at DeSales College in Toledo, Ohio, as a chemistry major.^[2]

Career

During Sherman's college education, the Second World War broke out. As a result of men going overseas to fight, the United States soon developed a shortage of chemists and other scientists. A local employment recruiter heard that Sherman had chemistry knowledge, and offered her a job at a factory in Sandusky, Ohio. He would not tell her what product the factory made, or what her job would be – only that she would be required to obtain a top secret security clearance. Short on money, she decided to take the job even though it would mean having to postpone her degree. The job turned out to be at the Plum Brook Ordnance Works munitions factory, charged with the responsibility of manufacturing explosives trinitrotoluene (TNT), dinitrotoluene (DNT), and pentolite. The site produced more than one billion pounds of ordnance throughout World War II.^[1][4]

Mary Sherman became pregnant out of wedlock in 1943, a difficult dilemma in an era when such behavior was considered extremely shameful and women were often given back-alley abortions or hidden away from their friends and family. At that time, she was living with her first cousin, Mary Hibbard, in Huron, Ohio. In 1944, she gave birth to a daughter, Mary G. Sherman, whom she later gave up for adoption to Hibbard and her husband, Irving. The child was renamed Ruth Esther.^[1][5][6]

After spending the war years designing explosives for the military, she applied for a job at North American Aviation, and was employed in their Rocketdyne Division, based in Canoga Park, California. Soon after being hired, she was promoted to the role of Theoretical Performance Specialist, which required her to mathematically calculate the expected performance of new rocket propellants.^[7][8] Out of 900 engineers, she was the only woman, and one of only a few without a college degree.^[9][7] These were two main sources of prejudice she faced in her time at the company.^[10]

While working at North American Aviation, she met her future husband, George Richard Morgan, a Mechanical Engineering graduate from Caltech. He was nicknamed "Red" Morgan. ^[11]Together, they had four children – George, Stephen, Monica, and Karen.^[1][9]

Space race era

External videos
“The Woman Who Saved the U.S. Space Race (And Other Unsung Scientists)”, Reactions

During the development program for the Jupiter missile, Wernher von Braun's team used modified Redstone missiles, dubbed the Jupiter C, to accelerate the rocket to orbital velocities. In order to improve the performance of the first stage, they awarded a contract to North American Aviation's Rocketdyne Division to come up with a more powerful fuel.^[12] The fuel needed to give extra power to the rocket while still maintaining the same engine design from the Army’s Redstone missiles, a very difficult task. Her colleagues deemed it as being set up to fail.^[13]

Morgan was assigned to lead a group of college interns at North American Aviation's Rocketdyne Division.^[14] She was the in-house rocket propellant expert out of all 900 employees, despite being a woman with no college degree.^[15] Due to her expertise and experience, Morgan's work resulted in the birth of a new propellant, Hydyne. The standard Redstone was fueled with a 75% ethyl alcohol solution, but the Jupiter-C first stage had used Hydyne fuel, a blend of 60% unsymmetrical dimethylhydrazine (UDMH) and 40% diethylenetriamine (DETA).^{[16]: 2–2} This was a more powerful fuel than ethyl alcohol.^[16] The first Hydyne-powered Redstone R&D flight took place on 29 November 1956,^[17]: 60 and Hydyne subsequently powered three Jupiter C nose cone test flights.^[17]: 166

In 1957, the Soviet Union and the United States had set a goal of placing satellites into Earth orbit as part of a worldwide scientific celebration, known as the International Geophysical Year.^[18] In this endeavor, the United States' effort was called Project Vanguard.^[18] The Soviet Union successfully launched the Sputnik satellite on October 4, 1957, an event followed soon after by a very public and disastrous explosion of a Vanguard rocket. Until this point, the US had been operating with the assumption that they were technologically in the lead. Russia beating them to it was a source of embarrassment, and shifted the US from missile based to technology based rockets. Sputnik orbited for 21 days, showcasing its success, and in less than a month Sputnik 2 had also been launched.^[19] Political pressure forced U.S. politicians to allow a former German rocket scientist, Wernher von Braun,^[20] to prepare his Jupiter C rocket for an orbital flight. Von Braun had developed the V2 rocket in WWII for the Nazis, it was capable of covering over 300 km. At the end of the war, von Braun was vulnerable to Nazi violence as they were prioritizing protection of their technology and intelligence. He relocated to the United States. The expertise of von Braun and his team were only able to get the propeller 93.1% of the way to orbit. The US decided to seek out Morgan, whose reputation for complex theoretical calculations landed her the ‘poisoned chalice’ of finding a better propellant for the rocket. Following the launch of Sputnik, the urgency of the commission intensified.^[21] In the renamed launcher (now called Juno I), the propellant succeeded in launching America's first satellite, Explorer I, into orbit on January 31, 1958.^[9] After the Jupiter C and six Juno I launches,^[17]: 166 the U.S. switched to more powerful fuels.^[16]

Morgan was not seeking outside praise or attention for her invention, “She intentionally eschewed the fame she could have had, calling security when a reporter showed up”. Most of the credit for the Explorer 1 goes to von Braun, but his rocker never would have launched without her fuel innovation.^[22] Braun became a familiar figure in newspapers and on television screens across the country. Meanwhile, many of the engineers responsible for space exploration and the space race receive little to no credit. All of the astronauts are remembered. The Explorer 1 salvaged the credibility of US science and engineering, and Mary Sherman Morgan was integral in that success.^[23]

Proposed fuel name

As Hydyne-LOX (liquid oxygen) was the fuel combination used for the Redstone rocket, Morgan whimsically suggested naming her new fuel formulation "Bagel", since the rocket's propellant combination would then be called Bagel and Lox.^[7][9] However, this name was rejected by the U.S. Army.

Death and tribute

Morgan died of chronic obstructive pulmonary disease (COPD) emphysema on August 4, 2004, at 82 years old, despite having quit her heavy smoking habit for Lent 29 years earlier. In July 2013, the BBC's online news magazine released a short video tribute to Morgan, narrated by her son, George.^[24]

Morgan was the subject of a semi-biographical stage play written by her son, George. The play, Rocket Girl, was produced by Theater Arts at California Institute of Technology (TACIT), directed by Brian Brophy, and was performed at the California Institute of Technology (Caltech) in Pasadena, California on November 17, 2008. Her son admitted that he knew surprisingly little about his mother's life and work when she died, as she worked in an industry connected to defense and national security, and was limited in what she could discuss. Due to her great avoidance of celebrity attention and status, she never did any interviews in her career or during retirement. She had erased herself from existence so much that when her son George Morgan tried to write an obituary in the Los Angeles Times following her 2004 death, there wasn’t enough information to verify her existence. The newspaper couldn’t publish it.^[25] George created a blog to learn more about his mother and collect as much information as he could.^[26] He had built and launched homemade rockets with friends in the Arizona desert, and as he recalled, "If I'd known how much expertise in rocketry my mother had, we could have asked her for help and saved ourselves a great deal of trouble."^[7][9] The play was later turned into a book by the same name.^[1] The book was released in 2013 titled Rocket Girl, and subtitled, “The Story of Mary Sherman Morgan, America’s First Female Rocket Scientist”. It was particularly hard to source information due to the secrecy of the Space Race and Cold War relations.^[27]

References

1. Morgan, George D., with Ashley Stroupe, PhD. Rocket Girl: The Story of Mary Sherman Morgan, America's First Female Rocket Scientist, Prometheus Books, 2013, ISBN 1616147393, ISBN 978-1616147396.
2. Maggs, Sam (2016). Wonder women : 25 innovators, inventors, and trailblazers who changed history. Sophia Foster-Dimino. Philadelphia. ISBN 978-1-59474-925-4. OCLC 959398191.
3. Magazine, Smithsonian; PLACEHOLDER, REPRINT AUTHOR. "Five Women Inventors You Didn't Learn About in History Class". Smithsonian Magazine. Retrieved December 6, 2023.
4. US Dept of Defense. Formerly Used Defense Sites. Site Number: G05OH0018
5. Final Decree, June 8, 1946. Probate Court Records, Sandusky, Erie County, Ohio
6. April 1944 Birth Records. St. Vincent's Hospital, Philadelphia, PA
7. Lerner, Preston. "Soundings: She Put the High in Hydyne". Air & Space/Smithsonian Magazine, February/March 2009, Vol. 23, No. 6, pp. 10, ISSN 0886-2257.
8. Draxler, Breanna. "'Rocket Girl' (book review)", Discover Magazine, July–August 2013, p. 25.
9. Morgan, George. "America's First Lady of Rocketry", Caltech News, California Institute of Technology, Vol. 42, No. 1.
10. Demming2021-03-08T09:49:00+00:00, Anna. "Mary Sherman Morgan: The best kept secret in the space race". Chemistry World. Retrieved December 6, 2023.
11. "Mary Sherman Morgan – Rocket Girl". cosmosmagazine.com. June 20, 2021. Retrieved December 6, 2023.
12. Robert S. Kraemer and Vince Wheelock. “Rocketdyne: powering humans into space”. American Institute of Aeronautics and Astronautics. 2006, pp. 43–44.
13. "Mary Sherman Morgan – Rocket Girl". cosmosmagazine.com. June 20, 2021. Retrieved December 6, 2023.
14. Missiles and Rockets. American Aviation Publications. January 1958. Retrieved June 7, 2013. Nicknamed Hydyne, the fuel increased thrust and missile range by 12% over that of a conventional Redstone engine. Dr. Jacob Silverman, supervisor of Rocketdyne's propulsion research thermodynamics unit and a leader in the development of Hydyne, first started work on the new compound early in 1956. The problem faced by Silverman and the company's chemical engineers was that of developing a fuel that would increase performance and could be substituted for the alcohol usually burned in the Redstone engine.
15. Magazine, Smithsonian; PLACEHOLDER, REPRINT AUTHOR. "Five Women Inventors You Didn't Learn About in History Class". Smithsonian Magazine. Retrieved December 6, 2023.
16. NASA. The Mercury-Redstone Project.
17. Bullard, John W. (October 15, 1965). History of the Redstone Missile System (PDF) (Report). Archived from the original on August 22, 2013.
18. Dickson, Paul: “Sputnik, The Shock of the Century”. Walker & Company. 2001
19. Demming2021-03-08T09:49:00+00:00, Anna. "Mary Sherman Morgan: The best kept secret in the space race". Chemistry World. Retrieved December 6, 2023.
20. Bob Ward. "Dr. Space: The Life of Wernher von Braun". Naval Institute Press, 2005
21. Demming2021-03-08T09:49:00+00:00, Anna. "Mary Sherman Morgan: The best kept secret in the space race". Chemistry World. Retrieved December 6, 2023.
22. Demming2021-03-08T09:49:00+00:00, Anna. "Mary Sherman Morgan: The best kept secret in the space race". Chemistry World. Retrieved December 6, 2023.
23. "Remembering the US's first female rocket scientist". BBC News. Retrieved December 6, 2023.
24. Taylor Hiegel and Bill McKenna. "Remembering the US's first female rocket scientist", BBC News Magazine, July 17, 2013.
25. "Remembering the US's first female rocket scientist". BBC News. Retrieved December 6, 2023.
26. "Mary Sherman Morgan – Rocket Girl". cosmosmagazine.com. June 20, 2021. Retrieved December 6, 2023.
27. "Mary Sherman Morgan – Rocket Girl". cosmosmagazine.com. June 20, 2021. Retrieved December 6, 2023.

External links

• "'Rocket Girl' Celebrates Smash World Premiere at Caltech in Pasadena"
• TACIT (Theater Arts at CIT)
• Brian Brophy at IMDb