6 Women Who Wrote STEM History You've Probably Never Heard of

6 Women Who Wrote STEM History You've Probably Never Heard of

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There are many men and women in history who have made invaluable contributions to STEM history. Whilst we might not remember all of their names, these 6 women who wrote STEM history deserve to have their legacies remembered.


As you will soon find out, these women used their undeniable intellect and ingenuity help build the future.

Ladies, we salute you!

1. Dorothy Wrinch founded Mathematical Biochemistry

Dorothy Wrinch is possibly one of the greatest female minds in STEM you might not have heard of. She was a mathematician and biochemical theorist, who is best known for her attempt to deduce protein structure using only mathematical principles.

Her so-called, 'cyclol' hypothesis was later found to be fatally flawed, but it was an impressive effort nonetheless.

She was born in Rosario in Argentina in 1894 and was the daughter of an engineer, Hugh Edward. Whilst born in Argentina, her parents were English and soon returned home when she was very young.

Dorothy attended Girton College at The University of Cambridge in 1913 to study mathematics. She was soon introduced to Bertrand Russell and became an advocate for his work for many years.

Between 1918 and 1932 she published no less than 20 papers on n pure and applied mathematics and 16 on scientific methodology and on the philosophy of science.

By 1932 her work was more focussed on theoretical biology and she became one of the founders of Biotheoretical Gathering (aka the 'Theoretical Biology Club'), an interdisciplinary group that sought to explain life by discovering how proteins work.

Her most significant contribution to STEM was her so-called "cyclol structure". This hypothesis was the first structural model for folded, globular proteins.

Her model was ambitious but was later proved to be problematic when it was found to be at odds with later experimental observations on the structure of proteins. Most notably from X-ray crystallography observations.

Despite this, some elements of her hypothesis were verified - such as her hypothesis that hydrophobic interactions are the main reason that proteins tend to fold.

Whilst her work is an excellent example of the power of empirical falsifiability in the scientific process, it did help lay the foundations for the development of the DNA double helix structure defined by Crick and Watson in the 1950s.

2. Ruby Payne-Scott was the world’s first woman Radio-Astronomer

Ruby Payne-Scott was one of the very earliest Australian radiophysicists and radio astronomers and was the very first female radio astronomer of all time. She would make significant contributions to the development of RADAR and became an expert in the detection of aircraft during WW2.

After the war, she would repurpose her expertise for scientific purposes. Being both a physicist and electrical engineer, she easily distinguished herself from most of her colleagues.

In 1946, Ruby and her colleagues Joe Pawsey and Lindsay McCready, were among the first to make the connection between sunspots and increased radio emissions from the Sun.

She would later build on this work and between 1946 and 1951, by focussing (pun intended) on studying 'burst' radio emissions from the Sun. Her work would become instrumental in the field, and she is widely credited with the discovery of Type 1 and Type III bursts.

In 1951 she resigned from her scientific career to start a family. After a brief return in 1952, she later worked as a school-teacher at Danebank School in Sydney until 1974.

3. Emily Warren Roebling was instrumental in building the Brooklyn Bridge

Emily Warren Roebling is best known for her significant contributions to the completion of the Brooklyn Bridge. Whilst, not an engineer herself, her husband was the chief engineer of the project and she was later heavily involved in its completion.

Whilst visiting her brother during the American Civil War in 1864, she became acquainted with Washington Roebling. He was the son of the Brooklyn Bridge's designer John A. Roebling.

When construction began on the bridge, Washington and Emily traveled to Europe on an information-gathering mission to learn about the use of caissons for bridge-building. After returning to the U.S., Washington's father, John, died following an accident at the bridge site.

Washington took over from his father as the chief engineer. After developing decompression sickness in one of the bridge's caissons, Emily found herself in the role of relaying information from her husband to the site team.

She quickly developed extensive knowledge of various aspects of the bridge's construction. For the next decade, she became an invaluable member of the design team and effectively took over the role of chief engineer for the project.

Once the bridge was finished in 1883, Emily was the first to cross and was honored by in the opening speech. "[The bridge] an everlasting monument to the sacrificing devotion of a woman and of her capacity for that higher education from which she has been too long disbarred".

4. “The First Lady Of Engineering”: Lillian Moller Gilbreth

Lillian Moller Gilbreth was an American psychologist, industrial engineer, consultant, and educator. She is best known for her pioneering work in the application of psychology to time-and-motion studies.

Lillian became one of the first female engineers to ever earn a Ph.D. and is considered one of the very first industrial/organizational psychologists.

She was born in Boston, Massachusetts in 1903 and she was to be one of a total of 13 children to her parents. Lillian would dedicate her career and most of her life to combining psychology with the study of scientific management and engineering.

By combining the Time Study work of Frederick Winslow Taylor with their own Motion study principles, they were able to create an entirely new business efficiency technique called Time and Motion Study. Today, it is a major part of scientific and business management.

Lillian and her husband would later found a consultancy business based on this new field and would write numerous publications on the subject.

Lillian for her part in the venture would receive over 23 honorary degrees, have libraries named after her and receive various other awards and honors during her lifetime and posthumously.

5. Mae Jemison is a history-making astronaut

Mae Carol Jemison is an American physician, engineer and NASA astronaut. She is best known for being the very first black woman to ever travel into space when she joined the crew of the Space Shuttle Endeavour.

Mae earned a degree in chemical engineering and later graduated medical school and worked as a general practitioner for a time. She later joined the Peace Corps between 1985 and 1987 before being accepted by NASA in 1992.

The same year, Mae was assigned as the mission specialist for STS-47. All told, Mae would spend around 190 hours in space.

Her medical training also makes her one of the few M.D. astronauts of all time.

A year later Mae resigned from NASA and founded her own research company to investigate the application of technology into daily life.

Mae has also made appearances on TV and film throughout her life, most notably making a cameo in an episode of Star Trek: The Next Generation.

For her work, Mae would later receive 9 honorary degrees in science and engineering, letters and the humanities.

6. Hertha Marks Ayrton was a prolific inventor

Hertha Ayrton, born Pheobe Sarah Marks, was a British engineer, mathematician, physicist, and inventor. She is best known for her groundbreaking work on electric arcs and ripples in sand and water.

She was born in 1854 in Portsea, Hampshire to a Polish Jewish watchmaker and daughter of a glass merchant. At a young age, her father died, leaving her mother to look after eight children. For this reason, Sarah took on some of the childcare responsibilities for her mother.

She would later gain an interest in mathematics, science, and engineering and, with the aid of George Eliot, successfully apply to Girton College, Cambridge in the 1880s.

Whilst there, she built her own blood pressure meter, founded the Girton Fire Brigade and former a mathematical club. She successfully passed the Mathematical Tripos but could only be awarded a certificate, rather than a degree, as was the custom at the time for women.

Despite this, she was awarded a B.Sc. from the University of London in 1881. Hertha would be granted various patents for inventions from 1884 which included 5 on mathematical dividers, 13 on arc lamps and electrodes, and another 8 on the propulsion of air.

In the late 19th Century Hertha put her mind to help solve a common issue with electric arc lighting. She was able to determine that a common flicker problem was caused by oxygen coming into contact with the lighting's carbon rods.

in 1899 she became the first woman ever to read her paper on the subject to the Institute of Electrical Engineers (IEE). Following this, she became the first woman to ever be admitted to the institute, with the next only being admitted in 1958!

She later became the first woman to read a paper before the Royal Society in 1904 on her work on the origin and growth of ripple marks. Several years later she was awarded by the Royal Society the highly prized "Hughes Award" for her work on electric arcs.

This makes her only one of two women to ever receive the prize.

One of her most important inventions was the Ayrton Fan, or flapper, that was used during the trenches of WW1. Its design was inspired by her work on vortices in water and air and was used to keep trenches clear of poison and foul gas.

Whilst she did initially receive resistance for its use, she fought tenaciously for its organization and production. Over 100,000 were eventually used on the Western Front.

Watch the video: 6 Famous women in STEM history (July 2022).


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