Elizabeth Laverick
Elizabeth Laverick OBE FIEE FInstP (25 November 1925 – 12 January 2010) was a British engineer who became technical director of Elliott Automation Radar Systems. Laverick was the first female deputy secretary of the Institution of Electrical Engineers (now the Institution of Engineering and Technology) and president of the Women's Engineering Society. She was the first woman to receive a PhD in a scientific curriculum at Durham University, and was appointed an OBE in 1993.[1]
Elizabeth Laverick | |
---|---|
Born | Amersham, Buckinghamshire, England | 25 November 1925
Died | 12 January 2010 84) | (aged
Nationality | British |
Alma mater | Durham University |
Awards | OBE (1993) |
Scientific career | |
Fields | Engineer |
Institutions | Elliot Automation Institution of Electrical Engineers Women's Engineering Society |
Early life and education
Laverick was born in Amersham, England in 1925. Her father was a chemist and her mother assisted her father with clerical work.[2] She attended a local grammar school, Dr Challoner's, and took a higher school certificate in physics, maths, French and English. There was an age barrier to attending university at this time so after completing her A levels, Laverick took a job as a technical assistant in the Civil Service at the Radio Research Station in Ditton Park.[3] In 1943 Laverick undertook a bachelor's degree in radio and physics at Durham University. She stayed on at Durham to undertake a PhD researching dielectric measurements at audio frequencies using a differential transformer,[4] and in 1950 became the first woman to receive a PhD in a scientific discipline from Durham University.[5]
Career
Laverick remained at Durham as a research assistant for a year, and was then hired by Sir Robert Clayton at GEC Stanmore (Marconi Defence Systems Ltd.) where she worked as a microwave engineer.[5] Her then husband was also employed at GEC Stanmore. At this time there were five or six female mathematicians, physicists and engineers at GEC Stanmore, alongside several hundred male employees.
In 1954 Laverick moved to Elliott Automation (part of Elliot Brothers) as a microwave engineer, gaining commercial experience in microwave instruments. In 1957 she became a senior engineer and in 1959 she was appointed head of the radar and communication research laboratory.[6] She became technical director of Elliot Automation Radar Systems, a role in which she was responsible for the technical quality and financial viability of four divisions concerned with the research, development and production of radar and other products. A considerable number of the products Laverick was involved in, such as airborne radar and an army radar went into production. Over time Laverick moved away from technical work towards a managerial role and in 1968 she became the general manager of Elliott Automation Radar Systems, though she had thought that, as a woman, she was barred from such managerial work.[5]
From 1967 to 1969 Laverick was president of the Women's Engineering Society, taking over from Rose Winslade. She spent spare time giving career talks to girls and doing much to inspire women to work in the field.[7] She became a member of the WES in 1959, presented the first Verena Holmes lecture by WES in 1969 and edited the WES journal (The Woman Engineer) between 1983 and 1990.[8]
In 1984 Laverick accepted nomination as a Vice President of the Electrical Association for Women.[9]
Seeking a career change Laverick applied for and became the first female deputy secretary of the Institution of Electrical Engineers in 1971, a role she held for 14 years.
Laverick was the fifth woman to be made a Fellow of IEE[10] and was a Fellow of the Institute of Physics. She chaired the Institute of Physics' 'Women in Physics Committee' and was the first woman to serve on the IEE Council.[10] In 1993 she received an OBE for 'services to women in engineering and science'.
Publications
- 'The use of special waveforms in the study of linear dielectric phenomena' (1951).[11]
- 'Some measurements and applications of the microwave properties of a magnesium-manganese ferrite in the 8–9 mm waveband' (1957).[12]
- 'The Calibration of Microwave Attenuators by an Absolute Method' (1957).[13]
- 'An automatic standing-wave indicator for the 3-cm waveband' (1959).[14]
- 'Research and development in radar communications' (1960)[15]
- 'EDITORIAL' (1980)[16]
- 'From MAP to AMIE: the IEE's contribution to advanced manufacturing techniques' (1987).[17]
References
- Catharine M. C. Haines (2001). International Women in Science: A Biographical Dictionary to 1950. ABC-CLIO. pp. 166–. ISBN 978-1-57607-090-1.
- "Elizabeth Laverick, an oral history conducted in 1994 by William Aspray, IEEE History Center, Hoboken, NJ, USA". Engineering and Technology History Wiki. 994. Retrieved 18 July 2017.
- "Oral-History:Elizabeth Laverick - Engineering and Technology History Wiki". ethw.org. Retrieved 15 June 2017.
- Laverick, Elizabeth (1950). "Dielectric measurements by voltage step methods" (PDF). etheses.dur.ac.uk. Retrieved 15 June 2017.
- Davey, B. (1 February 1999). "Go for it! Take three successful women". Engineering Management Journal. 9 (1): 25. doi:10.1049/em:19990111. ISSN 1741-0487.
- "News of Members". The Woman Engineer. 9: 1. Summer 1964. Archived from the original on 9 December 2019. Retrieved 21 June 2019 – via Institution of Engineering and Technology.
- Zorpette, G (May 1992). "Elisabeth Laverick". IEEE Spectrum. 29 (5): 40–42. doi:10.1109/6.135408. S2CID 20199883.
- "WES matters - Council". The Woman Engineer. 15 (2): 2. Autumn 1993. Archived from the original on 9 December 2019. Retrieved 21 June 2019 – via The Institution of Engineering and Technology.
- "New of Members". The Woman Engineer. 13 (7): 3. February 1984. Archived from the original on 9 December 2019. Retrieved 21 June 2019 – via The Institution of Engineering and Technology.
- Inglis, Sheena (1 March 1970). "What makes women engineers?". Students' Quarterly Journal. 40 (159): 83. doi:10.1049/sqj.1970.0003. ISSN 2053-7875.
- Laverick, Elizabeth (1 March 1951). "The use of special waveforms in the study of linear dielectric phenomena". Journal of the British Institution of Radio Engineers. 11 (3): 81–92. doi:10.1049/jbire.1951.0021. ISSN 2054-054X.
- Laverick, Elizabeth; Rivett-Carnac, Ann (1 January 1957). "Some measurements and applications of the microwave properties of a magnesium-manganese ferrite in the 8–9 mm waveband". Proceedings of the IEE - Part B: Radio and Electronic Engineering. 104 (6S): 379–382. doi:10.1049/pi-b-1.1957.0068. ISSN 2054-0434.
- Laverick, Elizabeth (October 1957). "The Calibration of Microwave Attenuators by an Absolute Method". IRE Transactions on Microwave Theory and Techniques. 5 (4): 250–254. Bibcode:1957ITMTT...5..250L. doi:10.1109/TMTT.1957.1125160.
- Laverick, Elizabeth; Welsh, J. (1 April 1959). "An automatic standing-wave indicator for the 3-cm waveband". Journal of the British Institution of Radio Engineers. 19 (4): 253–262. doi:10.1049/jbire.1959.0031. ISSN 2054-054X.
- Laverick, Elizabeth (Spring 1960). "Research and development in radar communications". The Woman Engineer. 8: 9–15. Archived from the original on 9 December 2019. Retrieved 21 June 2019 – via IET.
- Laverick, Elizabeth (January 1980). "Editorial (small article about women in engineering)". The International Journal of Electrical Engineering & Education. 7 (1): 3. doi:10.1177/002072098001700101. S2CID 208150826.
- Laverick, Elizabeth (1 March 1987). "From MAP to AMIE: the IEE's contribution to advanced manufacturing techniques". Electronics and Power. 33 (3): 195. doi:10.1049/ep.1987.0123. ISSN 2053-7883.