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Death of Edith Anne Stoney, First Woman Medical Physicist

Edith Anne Stoney, considered to be the first woman medical physicist, dies in Bournemouth, England, on June 25, 1938.

Stoney is born into an old-established Anglo-Irish scientific family at 40 Wellington Road, Ballsbridge, Dublin, on January 6, 1869. The daughter of George Johnstone Stoney, FRS, an eminent physicist who coins the term “electron” in 1891 as the “fundamental unit quantity of electricity,” and his wife and cousin, Margaret Sophia Stoney. One of her two brothers, George Gerald, is an engineer and a Fellow of the Royal Society (FRS). One of her two sisters, Florence Stoney, is a radiologist and receives an OBE. Her cousin is the Dublin-based physicist George Francis FitzGerald FRS (1851–1901), and her uncle Bindon Blood Stoney FRS is Engineer of Dublin Port, renowned for building a number of the main Dublin bridges and developing the Quayside.

Stoney demonstrates considerable mathematical talent and gains a scholarship at Newnham College, Cambridge, where she achieves a First in the Part I Tripos examination in 1893. However, she is not awarded a University of Cambridge degree as women are excluded from graduation until 1948. During her time at Newnham, she is in charge of the College telescope. She is later awarded a BA and an MA from Trinity College Dublin, after they accept women in 1904.

After briefly working on gas turbine calculations and searchlight design for Sir Charles Algernon Parsons, she takes a mathematics teaching post at the Cheltenham Ladies’ College.

Following the 1876 Medical Act, it is illegal for academic institutions to prevent access to medical education based on gender. The first medical school for women in Britain is established in 1874 by Dr. Sophia Jex-Blake in anticipation of this law. The London School of Medicine for Women quickly becomes part of the University of London, with clinical teaching at the Royal Free Hospital. Stoney’s sister Florence is a student at the school, graduates in medicine with honours in 1895 (MB BS) and obtains her MD in 1898. Meanwhile, Stoney gains an appointment as a physics lecturer at the school in 1899. Her first tasks are to set up a physics laboratory and design the physics course. The laboratory is planned for 20 students, and the course content is pure physics, as required by university regulations. It includes mechanics, magnetism, electricity, optics, sound, heat and energy. In her obituary in The Lancet, an ex-student of hers notes: “Her lectures on physics mostly developed into informal talks, during which Miss Stoney, usually in a blue pinafore, scratched on a blackboard with coloured chalks, turning anxiously at intervals to ask ‘Have you taken my point?’. She was perhaps too good a mathematician … to understand the difficulties of the average medical student, but experience had taught her how distressing these could be”.

In 1901, the Royal Free Hospital appoints Florence into a new part-time position of medical electrician. The following April, the two sisters open a new x-ray service in the electrical department. During their time at the Royal Free Hospital, the two sisters actively support the women’s suffrage movement, though oppose the direct violent action with which it is later associated.

During her time at the school, Stoney also plays a central role in the British Federation of University Women (BFUW). She is elected treasurer, in her absence, at the first executive meeting on October 9, 1909, a position she holds until the end of May 1915. She becomes increasingly engaged with the political lobbying of the Federation. At the executive meeting on October 19, 1912, she proposes the names of two members for a subcommittee to secure the passing into law of a bill to enable women to become barristers, solicitors or parliamentary agents. The legislation is eventually enacted after the war within the Sex Disqualification (Removal) Act 1919.

Stoney resigns her post at the school in March 1915 and it is recorded that “with due regret and most unwillingly a change is desirable in the physics lectureship.” She is offered £300 on tendering her resignation.

Both Stoney and Florence offer their services to the British Red Cross at the War Office in London, to provide a radiological service to support the troops in Europe, on the day Britain declares war. Their offer is refused, because they are women. Florence sets up her own unit with the Women’s Imperial Service League and spends the next 6 months in Europe. Stoney organises supplies from London where she also serves on the League’s committee. Florence returns to London at the time Stoney resigns from the London School of Medicine for Women. She contacts the Scottish Women’s Hospitals (SWH), an organisation formed in 1914 to give medical support in the field of battle and financed by the women’s suffrage movement. The organisation has gained agreement to set up a new 250-bed tented hospital at Domaine de Chanteloup, Sainte-Savine, near Troyes (France), funded by the Cambridge women’s colleges of Girton and Newnham and it becomes her role to plan and operate the x-ray facilities. She establishes stereoscopy to localise bullets and shrapnel and introduces the use of x-rays in the diagnosis of gas gangrene, interstitial gas being a mandate for immediate amputation to give any chance of survival.

The hospital is near the front line and, in her own words, by September 1915, “the town had been evacuated, the station had been mined, and we heard the heavy guns ever going at nighttime.” The unit is entirely female, except for two part-time male drivers, and her technical assistant, Mr. Mallett.

They are assigned to the Corps Expéditionnaire d’Orient and ordered to move to Serbia. After boarding the steamship Mossoul in Marseille, they reach Salonika (known as Thessaloniki in modern Greece) on November 3, where they take the night train north to Ghevgheli (now Gevgelija in modern North Macedonia), on the Serbian side of the Greek border. They set up a hospital in an unused silk factory where they treat 100 patients with injuries ranging from frostbite to severe lung and head wounds. Following defeats at the hands of Bulgarian forces, Stoney and her staff retreat to Salonika by December 6, 1916. Eleven days later, they have re-established the hospital on a drained low swamp by the sea, and by New Year’s Day 1917 she has the lights on and the x-rays working. Despite the lack of equipment and resources, she establishes an electrotherapy department and various equipments for the muscular rehabilitation of the soldiers in their care. She also assists with problems on two British hospital ships, on which the x-ray systems have been damaged during a storm and gives support to the SWH unit in Ostrovo (now Arnissa on Lake Vegoritida formerly lake Ostrovo in Northern Greece), which arrives during September 1916. She has a break for sick leave in December 1917 and returns the following summer. She applies for an appointment as an army camp radiologist in Salonika, but her demand is blocked by the War Office.

In October 1917, Stoney returns to France to lead the x-ray departments at the SWH hospitals of Royaumont and Villers-Cotterêts. In March 1918, she has to supervise a camp closure and retreat for the third time, when Villers-Cotterêts is overrun by the German troops. During the final months of the war the fighting intensifies and there is a steep increase in workload. In the month of June alone the x-ray workload peaks at over 1,300, partly because of an increased use of fluoroscopy.

Stoney’s war service is recognised by several countries, and she is awarded the Médaille des épidémies du ministère de la Guerre and the Croix de Guerre from France, the Order of St. Sava from Serbia, and the Victory Medal and British War Medal from Britain.

On returning to England, Stoney takes a post as lecturer in physics in the Household and Social Science department at King’s College for Women which she holds until retirement in 1925. After leaving King’s she moves to Bournemouth, where she lives with her sister Florence, who is suffering from spinal cancer, dying in 1932.

During her retirement, Stoney resumes her work with the BFUW for which she had acted as the first treasurer before the war. She becomes one of the earliest (and oldest) members of the Women’s Engineering Society and plays an active part in the organisation until shortly before her death. She travels widely and, in 1934, she speaks to the Australian Federation of University Women on the subject of women in engineering, highlighting the contribution made by women workers during the war. In 1936, she establishes the Johnstone and Florence Stoney Studentship in the BFUW, for “research in biological, geological, meteorological or radiological science undertaken preferably in Australia, New Zealand or South Africa.” The studentship is now administered by Newnham College, Cambridge, and supports clinical medical students going abroad for their elective period. The declaration of Trust is dated February 11, 1942 and the Johnstone And Florence Stoney Studentship Fund Charity is registered on March 25, 1976.

Stoney dies on June 25, 1938, at age 69, and obituaries are printed in both the scientific and medical press – Nature, The Lancet, The Woman Engineer and national newspapers in England, The Times and Australia.

Stoney is remembered for her considerable bravery and resourcefulness in the face of extreme danger, and her imagination in contributing to clinical care under the most difficult conditions of war. As a strong advocate of education for women, she enables young graduate women to spend time on research overseas and another to enable physicists to enter medical school thanks to the fund she created. Through her work and engagements, she is remembered as a pioneer of medical physics.

(Pictured: Edith Anne Stoney during her time in Cambridge in the early 1890s)


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Birth of Robert Mallet, the Father of Seismology

Robert Mallet, geophysicist, civil engineer, and inventor who distinguishes himself in research on earthquakes and is sometimes called the Father of Seismology, is born in Dublin on June 3, 1810.

Mallet is the son of factory owner John Mallet. He is educated at Trinity College, Dublin, entering it at the age of 16 and graduating in science and mathematics in 1830 at the age of 20.

Following his graduation, Mallet joins his father’s iron foundry business and helps build the firm into one of the most important engineering works in Ireland, supplying ironwork for railway companies, the Fastnet Rock lighthouse, and a swing bridge over the River Shannon at Athlone. He also helps manufacture the characteristic iron railings that surround Trinity College, and which bear his family name at the base.

Mallet is elected to the Royal Irish Academy in 1832 at the early age of 22. He also enrolls in the British Association for the Advancement of Science in 1835 which helps finance much of his research in seismology.

In 1838 Mallet becomes a life member of the Royal Geological Society of Ireland and serves as its President from 1846–1848. From 1848–1849 he constructs the Fastnet Rock lighthouse, southwest of Cape Clear.

On February 9, 1846, Mallet presents to the Royal Irish Academy his paper On the Dynamics of Earthquakes, which is considered to be one of the foundations of modern seismology. He is also credited with coining the word “seismology” and other related words which he uses in his research. He also coins the term epicentre.

From 1852 to 1858, Mallet is engaged in the preparation of his work, The Earthquake Catalogue of the British Association (1858) and carries out blasting experiments to determine the speed of seismic propagation in sand and solid rock.

On December 16, 1857, the area around Padula, Italy is devastated by the Great Neapolitan earthquake which causes 11,000 deaths. At the time it is the third largest known earthquake in the world and has been estimated to have been of magnitude 6.9 on the Richter Scale. Mallet, with letters of support from Charles Lyell and Charles Darwin, petitions the Royal Society of London and receives a grant of £150 to go to Padula and record at first hand the devastation. The resulting report is presented to the Royal Society as the Report on the Great Neapolitan Earthquake of 1857. It is a major scientific work and makes great use of the then new research tool of photography to record the devastation caused by the earthquake. In 1862, he publishes the Great Neapolitan Earthquake of 1857: The First Principles of Observational Seismology in two volumes. He brings forward evidence to show that the depth below the Earth’s surface, from where the impulse of the Neapolitan earthquake originated, is about 8–9 geographical miles.

One of Mallet’s papers is Volcanic Energy: An Attempt to develop its True Origin and Cosmical Relations, in which he seeks to show that volcanic heat may be attributed to the effects of crushing, contortion, and other disturbances in the crust of the earth. The disturbances leading to the formation of lines of fracture, more or less vertical, down which water would find its way, and if the temperature generated be sufficient volcanic eruptions of steam or lava would follow.

Mallet is elected Fellow of the Royal Society in 1854, and in 1861 moves to London, where he becomes a consulting engineer and edits The Practical Mechanic’s Journal. He is awarded the Telford Medal by the Institution of Civil Engineers in 1859, followed by the Cunningham Medal of the Royal Irish Academy for his research into the theory of earthquakes in 1862, and the Wollaston Medal of the Geological Society of London in 1877, the Geological Society’s highest award.

Blind for the last seven years of his life, Robert Mallet dies at Stockwell, London, on November 5, 1881, and is buried at West Norwood Cemetery.


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Birth of Adrian Long, Civil Engineer & QUB Professor

Adrian Ernest Long OBE, civil engineer and professor at Queen’s University Belfast (QUB), is born on April 15, 1941, in Dungannon, County Tyrone, Northern Ireland. He has a particular interest in concrete structures and patents FlexiArch, a precast concrete arch product. He serves as president of the Institution of Civil Engineers (ICE) for 2002–03, the first Northern Irish engineer to do so.

Long comes from a carpentry and blacksmithing background. In 1959, he enters Queen’s University Belfast to study civil engineering. He graduates with first class honours and then takes a PhD at Queens. In 1967, he moves to Canada, working as a bridge designer for Fenco Engineering in Toronto.

Long, however, spends only a year in Canada, returning to Belfast in 1968 to become an associate professor of civil engineering at Queen’s University Belfast. In 1976, he is promoted to a full professorship. His work is largely in the field of concrete structures, particularly in chloride resistance, maintenance problems and arch bridge structures. He publishes twenty papers in journals managed by the Institution of Civil Engineers and wins eight of the institution’s medals for these, including the ICE Gold Medal.

From 1997 Long works on the FlexiArch, a precast concrete arch in which the individual voussoirs are joined by a flexible polymeric membrane. The arch arrives to site flat packed and when lifted into position by a crane, the gaps between the voussoirs close under gravity and form the correct arch profile. He patents the product, which is produced by Irish precast manufacturer Macrete, in 2004. The product can be constructed within a day and, containing no corrodible elements, has been stated to have a design lifespan of 300 years. More than fifty FlexiArch bridges have been constructed in the UK and Ireland and spans up to 30m are possible.

By 2002, Long is appointed dean of the faculty of engineering at QUB. In November of that year, he is appointed president of the ICE for the 2002–2003 session, the first Northern Irish person to hold that position. He is also a Fellow of the Royal Academy of Engineering and of the Institute for the Advancement of Engineering.

Long is appointed an officer of the Order of the British Empire in the 2006 New Year Honours for services to higher education and civil engineering. He resigns as professor at QUB in 2006 but remains there as an emeritus professor in the School of Natural and Built Environment. Since 2015, the ICE Northern Ireland awards the Adrian Long medal to the best paper in an ICE journal to be authored by a Northern Ireland member. The medal features a bust of Long.

Long is married to Elaine and they have two children, Michael and Alison. Michael serves as the 80th Lord Mayor of Belfast from May 9 to June 1, 2022. He also serves as High Sheriff of Belfast in 2021 and serves on Belfast City Council since 2001, where he is the Alliance group leader from 2015 to 2021. He is married to Alliance Party leader and Minister of Justice Naomi Long.

Long dies at the age of 81 at the Ulster Hospital on April 23, 2022.


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Death of William Archer, Naturalist, Librarian & Microscopist

William Archer, naturalist, librarian and microscopist especially interested in protozoa and desmids, dies in Dublin on August 14, 1897.

Archer is born in Magherahamlet, County Down, on May 6, 1827 (some sources say 1830), the eldest son of Rev. Richard Archer, vicar of Clonduff, and his wife, Jane Matilda (née Campbell). Nothing is known of his education, although his two younger brothers attend Trinity College Dublin (TCD). He apparently becomes estranged from his family, as he is not mentioned by H. B. Swanzy, who does mention his brothers as second and third sons in Richard Archer’s family.

Archer moves to Dublin around 1846, where for many years he pursues a business career. He achieves fame as a naturalist, founding in 1849 with eleven others, the Dublin Microscopical Club, of which he is the secretary and moving spirit for many years. Between 1858 and 1885 he writes over 230 scientific papers in the Quarterly Journal of Microscopical Science, the vast majority being short notes on desmids collected in Ireland.

Archer is a member of the Dublin University Zoological Association. He is elected Member of the Royal Irish Academy (MRIA) on January 10, 1870 and Fellow of the Royal Society (FRS) in 1875, on which occasion it is stated that he has “a knowledge of the minute freshwater organisms unparalleled among British naturalists and perhaps not surpassed for any other country.”

Archer begins a new career when he becomes librarian of the Royal Dublin Society (RDS) in January 1877. The bulk of the Society’s library is being taken over by the state to form the National Library of Ireland. He becomes the chief librarian of the new institution and has the task of overseeing the changes. Most of the ideas put forward in his pamphlet, Suggestions as to public library buildings . . . with especial reference to the National Library of Ireland (Dublin, 1881), are used by Sir Thomas Newenham Deane in his design for tthe new building, which opens in August 1890. His adoption of the Dewey system of classification and the inception of a dictionary catalogue, both novel in his day, are to prove of lasting value to users of the library.

In poor health, Archer retires in 1895. He dies, unmarried, at his home, 52 Lower Mount Street, Dublin, on August 14, 1897. Archer is a shy, modest man, who declines professorships at the Royal College of Science for Ireland and at TCD, and who is nominated for membership of the Royal Irish Academy and the Royal Society without his knowledge.


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Birth of William Archer, Naturalist & Librarian

William Archer FRS, Irish naturalist, librarian and microscopist especially interested in Protozoa and Desmids, is born on May 6, 1827 (some sources say 1830), in Maghera, County Down.

Archer is the eldest son of Rev. Richard Archer (1796? – 1849), perpetual curate of Maghera hamlet, County Down, and his wife, Jane Matilda (née Campbell). Nothing is known of his education, though his two younger brothers attend Trinity College Dublin (TCD). At some point, he apparently appears to become estranged from his family.

Archer moves to Dublin around 1846, where for many years he pursues a business career. He achieves fame as a naturalist, and in 1849, is one of the twelve founder members of the Dublin Microscopical Club, of which he is the secretary and moving spirit for many years. Between 1858 and 1885 he writes over 230 scientific papers on Irish fauna and flora in the Quarterly Journal of Microscopical Science, the vast majority of which are short notes on desmids collected in Ireland. Sometimes the same article is published in two or more journals.

Archer is a member of the Dublin University Zoological Association and is elected a member of the Royal Irish Academy (MRIA) on January 10, 1870, and Fellow of the Royal Society (FRS) in 1875, on which occasion it is stated that he has “a knowledge of the minute freshwater organisms unparalleled among British naturalists and perhaps not surpassed for any other country.”

Archer begins a new career when he becomes librarian of the Royal Dublin Society (RDS) in January 1877. The bulk of the society’s library is being taken over by the state to form the National Library of Ireland. He becomes the chief librarian of the new institution and has the task of overseeing the changes. Most of the ideas put forward in his pamphlet, Suggestions as to public library buildings . . . with especial reference to the National Library of Ireland (Dublin, 1881), are used by Sir Thomas Newenham Deane in his design for its new building, which opens in August 1890. His adoption of the Dewey Decimal Classification system and the inception of a dictionary catalogue, both novel in the day, are to prove of lasting value to users of the library.

In poor health, Archer retires in 1895. He dies, unmarried, at his home, 52 Mount Street Lower, Dublin, on August 14, 1897. He is a shy, modest man, who declines professorships at the Royal College of Science for Ireland and at Trinity College Dublin (TCD), and who is nominated for membership of the Royal Irish Academy (RIA) and the Royal Society without his knowledge.


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Birth of Mary Field Parsons, Countess of Rosse

Mary Parsons (née Field), Countess of Rosse, Anglo-Irish amateur astronomer, architect, furniture designer, and pioneering photographer, is born on April 14, 1813, at Heaton Hall, Heaton, Bradford, West Yorkshire, England. Often known simply as Mary Rosse, she is one of the early practitioners of making photographs from waxed-paper negatives.

Field is the daughter of John Wilmer Field, a wealthy estate owner. She has a sister, Delia, and they are educated at home by Susan Lawson, a governess who encourages her creativity and broad interests, including astronomy. The sisters are joint heirs to their father’s fortune.

Through her family Field meets William Parsons, then Lord Oxmantown and the future 3rd Earl of Rosse, an Anglo-Irish astronomer and naturalist, and they are married on April 14, 1836, her 23rd birthday. In February 1841, Lord Oxmantown succeeds his father in the family peerage to become the 3rd Earl of Rosse. She, Baroness Oxmantown since her marriage, thus now becomes the Countess of Rosse.

In the early 1840s the couple becomes interested in astronomy, and the Countess of Rosse helps her husband build a number of giant telescopes, including the so-called Leviathan of Parsonstown, that is considered a technical marvel in its time. The author, Henrietta Heald, contends that she is not only a financial support to the building of the telescope, but is also involved in a practical and intellectual capacity. The Leviathan of Parsontown is completed in 1845 and holds the record as the world’s largest telescope for over 70 years. It is mentioned in Jules Verne’s science fiction novel, From the Earth to the Moon.

The Countess of Rosse is an accomplished blacksmith, which is very unusual for higher class women of the time, and she may have constructed some of the iron work that supports the telescope. Other metal cast items around the castle grounds are designed by her, including bronze gates.

During the Great Famine of 1845–47 in Ireland, the Countess of Rosse is responsible for keeping over five hundred men employed in work in and around Birr Castle, where she and her husband live.

The Countess of Rosse creates a huge dining room at Birr Castle in which to entertain scientific guests, which becomes increasingly used when Lord Rosse becomes President of the Royal Society of London in 1848. Guests include mathematician William Rowan Hamilton, who writes her a sonnet about his experience of gazing through the Leviathan.

In 1842, Lord Rosse begins experimenting in daguerreotype photography, possibly learning some of the art from his acquaintance William Henry Fox Talbot. In 1854, he writes to Fox Talbot saying that the Countess too has just commenced photography and sends some examples of her work. Fox Talbot replies that some of her photographs of the telescope “are all that can be desired.”

The Countess of Rosse becomes a member of the Dublin Photographic Society, and in 1859 she receives a silver medal for “best paper negative” from the Photographic Society of Ireland. Many examples of her photography are in the Birr Castle Archives. Much of the topography of Birr Castle that she portrayed has changed very little, and it is possible to compare many of her photographs with the actual places. She records the Leviathan in her photographs including one image showing her three sons, Clere, Randal and Charles along with her sister-in-law, Jane Knox, standing upright at the mouth of the telescope.

The Countess of Rosse gives birth to eleven children, but only four survive to adulthood:

Mary, Dowager Countess of Rosse, dies in 1885.


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Death of Sir Charles Algernon Parsons, Anglo-Irish Engineer & Scientist

Sir Charles Algernon Parsons, Anglo-Irish engineer and scientist best known for his invention of the compound steam turbine, dies on February 11, 1931, on board the steamship Duchess of Richmond while on a cruise with his wife.

Parsons is born in London on June 13, 1854, the youngest among eleven children of the famous astronomer William Parsons, 3rd Earl of Rosse, of Parsonstown (now Birr), King’s County (now County Offaly) and Mary Parsons (née Field), a Yorkshire heiress. Only four sons survive to adulthood. He is strongly influenced by his father, who encourages him to use the workshops at the Birr Castle observatory, and he is tutored at home by some of the assistant astronomers before entering Trinity College Dublin in 1871. He transfers to St. John’s College, Cambridge, and upon graduation in 1877 as eleventh wrangler in a class of thirty-six studying mathematics, he takes the unusual step for the son of an earl, of becoming a premium apprentice at the Elswick Engine and Ordnance Works of Sir William George Armstrong at Newcastle upon Tyne. In the period following this he develops a unique high-speed steam engine, and a torpedo which is powered by a gas turbine. He joins Clarke Chapman at Gateshead as a partner in 1884. In a matter of months he files patents for the world’s first effective steam turbine. These embody many novelties, but the key feature is an electricity generator rated at 6 kW and designed to run, directly coupled, at the astonishing speed of 18,000 rpm.

Parsons is not satisfied that his partners’ efforts to promote turbine development are sufficiently aggressive, and in 1889 he leaves to establish his own company, C. A. Parsons & Company, at Heaton near Newcastle upon Tyne. The price of this impetuous action is the loss of access to his original patents. He quickly establishes alternative designs and by 1892 he has built a turbo-alternator with an output of 100 kW for the Cambridge Electricity Company. Exhausting to a condenser, it has a steam consumption comparable with the best steam engines. Even his 1884 patents envisage applying turbines to marine propulsion, but it is 1893 before he can embark on the design of a suitable demonstration boat of 40 tons. By using careful tests on models, he perfects the hull shape and predicts the power requirements. At this time he recovers his 1884 patents and even wins the very rare prize of an extension for five years, which is a measure of the perceived national importance of his invention.

A syndicate is formed to raise the capital necessary to build Parsons’s turbine-powered vessel Turbinia. At the Spithead Fleet Review in 1897 she speeds among the ships of the world’s navies at 34.5 knots. In 1905 the Royal Navy decides to adopt turbines for its future warships. This example is followed by navies worldwide, from the United States to Japan. Builders of mercantile vessels follow quickly and the turbines of the Cunard liner RMS Mauretania (1906), each developing 26,000 kW, are the largest in existence at the time. The Mauretania holds the Blue Riband for the speediest Atlantic crossing until 1929, a fact that keeps Parsons’s name before the public.

The firm of C. A. Parsons (1889), which builds turbines for use on land, is privately owned, but the Parsons Marine Steam Turbine Company (1897) is a public company. Parsons also earns income from over 300 patents through the Parsons Foreign Patents Co. (1899). He readily licenses others to use his patents but he avoides costly litigation, the ruin of many inventors.

Parsons inherits an interest in optical instruments from his father. In 1890 he develops a cost-effective method for manufacturing searchlight mirrors, using sheets of plate glass and an iron mold heated in a gas furnace. During World War I he supplies most of the national requirements. In 1921 he acquires the optical instrument manufacturers Ross Ltd. and the Derby Crown Glass Company, makers of optical quality glass. In 1925 the firm of Howard Grubb, which makes large optical telescopes, is rescued from insolvency by Parsons. He believes that it is of national importance to maintain the industrial capacity to make optical equipment. Not all of his projects are commercially profitable, as for example his acoustic amplifier, dubbed the “Auxetophone,” or his attempts at synthesising diamonds, which absorbs much time and effort. In the development of his many inventions, he displays great tenacity in the face of reverses and always employs a meticulously scientific approach.

The supply of power on a large scale is revolutionised by the steam turbine. During the twenty years following the building of his first turbogenerator, Parsons remains at the forefront of promoting, building, and selling ever larger and more efficient turbines. He is not only a scientific engineer and inventor, but also a successful manufacturer and businessman. Modest and retiring in manner, his chief weakness lay in a lack of skill in managing interpersonal relationships, though this is compensated to a large extent by his integrity and loyalty. He seeks out the ablest men to run his businesses, among them several Fellows of the Royal Society (FRS). He is elected FRS himself in 1898 and is knighted in 1911. In 1927 he becomes the first engineer to be awarded the Order of Merit for his outstanding contributions to society. He is honoured by many universities and institutions in Europe and the United States.

Parsons marries Katharine Bethell, a Yorkshire woman, in 1883. They have one daughter and a son who dies on active service in 1918. He keeps a residence in London and in Northumbria.

Parsons dies on February 11, 1931, on board the steamship Duchess of Richmond while on a cruise with his wife. The cause of death is given as neuritis. A memorial service is held at Westminster Abbey on March 3, 1931. He is buried in the parish church of St. Bartholomew’s in Kirkwhelpington in Northumberland. His estate is valued at £1,214,355 gross.

A portrait of Parsons, painted by Maurice Codner, hangs in the Institution of Mechanical Engineers, London. There is also a portrait by Sir William Orpen in the Laing Art Gallery, Newcastle upon Tyne, and a portrait by Walter Stoneman in the National Portrait Gallery, London.

(From: “Parsons, Sir Charles Algernon” by W. Garrett Scaife, Dictionary of Irish Biography, http://www.dib.ie, October 2009)


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Birth of Emer Colleran, Microbiologist & Environmental Advocate

Emer Colleran, Irish microbiologist, academic and an environmental advocate, is born in Ballinrobe, County Mayo, on October 12, 1945. She is professor of microbiology at the National University of Ireland, Galway, a member of the Royal Irish Academy, one of Mary Robinson‘s nominees on the Council of State, and chairwoman of An Taisce, the National Trust for Ireland.

Colleran, and her twin Noreen, are born to John and Josie Colleran. One of a family of five children, her father is a school principal and her mother, also a primary school teacher, dies when she is just 11 years old. She completes her secondary education at St. Louis secondary school in Kiltimagh. She spends a lot of time outdoors as a child, particularly fishing, which sparks her interest in the environment.

On entering higher education, Colleran has a grant from the Department of Education, which requires that she do her studies through the Irish language. Her first choice, Medicine, is not available in Irish so she chooses Science. She graduates with a first-class primary degree in Science at University College Galway (now National University of Ireland, Galway) in 1967.

Colleran specialises in anaerobic digestion as a postgraduate and in 1971 becomes a postdoctoral fellow for two years at the University of Bristol in the UK.

Colleran lectures in biology at Athlone Regional Technical College (now Athlone Institute of Technology) and Galway Regional Technical College (now Galway-Mayo Institute of Technology) before her appointment as a lecturer in microbiology at NUI Galway in 1976. She is appointed Associate Professor of Microbiology by the Senate of the National University of Ireland in 1990. She is a member of the university’s governing authority for a number of years, but steps down in May 2000 in connection with the selection procedure for the new university president. In October of that year, she is appointed professor of microbiology and chair of the department at NUI Galway.

Colleran is the first director of the Environment Change Institute at NUI Galway set up under the Higher Education Authority‘s Programme for Research in Third Level Institutions in 2000. In 2010, the Environmental Change Institute and the Martin Ryan Marine Research Institute are merged to form the current day Ryan Institute at NUI Galway.

In 1973 Colleran is elected to the committee of the Galway Association of An Taisce, part of a national voluntary organisation the aims of which are to conservation in Ireland through education, publicity and positive action. She serves as membership secretary and then treasurer to the Galway branch before becoming chairman. In 1981, as chairman of the Galway branch, she hits back at claims from Galway County Council that An Taisce are “an anonymous group, wielding power unfairly.” She is involved in the compilation of a controversial planning report, published by An Taisce in 1983, which highlights abuse of planning laws by city and county councillors across Ireland, and in particular in counties Galway, Mayo, Donegal, Kerry and Louth.

Colleran serves as Environmental Officer for An Taisce before being elected National Chairman in 1987, the first time a chairman has come from one of the western county associations. She continues to use her position to campaign against misuse of planning laws, for a clamp down on pollution of rivers and lakes, and against a move to scrap An Foras Forbartha, a body that provides independent monitoring of pollution. During her three years as chairman, until May 1990, she is particularly involved in debates over local environmental and planning issues, in particular over gold mining in the west of Ireland, a proposed airport for Clifden, and the planned sewage treatment plant at Mutton Island, County Galway.

In 1991 plans are announced for a new visitor centre, to be located at Mullaghmore in The Burren. Colleran is among those who are part of an appeal, saying that while the plan for the national park is welcomed by An Taisce, they want the visitor centre to be located three or four miles from Mullaghmore.

President Mary Robinson appoints seven new members to her Council of State in February 1991, including Colleran. Other new members appointed at the time are Monica Barnes, Patricia O’Donovan, Quintan Oliver, Rosemarie Smith, Dónal Toolan and D. Kenneth Whitaker. The new Council of State represents a wide spectrum of Irish life and is widely welcomed, although Fine Gael is disappointed that its leader John Bruton is not included.

In 1991, Colleran is one of 15 people appointed to Taoiseach Charles Haughey‘s Green 2000 Advisory Group, to determine which problems will face the environment in the next century. The group is led by Dr. David Cabot, special advisor on environmental affairs.

Colleran is appointed a member of the National Heritage Council in 1995 by the Minister for Arts, Culture and the Gaeltacht, Michael D. Higgins. In the same year the Minister of State at the Department of the Marine, Eamon Gilmore, appoints her to the chair of the Sea Trout working group to oversee the implementation of recommendations to tackle a decline in sea trout stocks, particularly in the west of Ireland.

In 2003 Colleran is elected as a member of the Royal Irish Academy.

Colleran is recognised at the annual NUI Galway Alumni Awards in 2004 when she receives the award for Natural Science, sponsored by Seavite Bodycare Ltd., which acknowledges a graduate who has made an outstanding contribution in the field of natural science.

Colleran dies on June 30, 2018, at University Hospital Galway.


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Birth of Ophthalmologist Arthur Jacob

Arthur Jacob, Irish ophthalmologist, is born on June 13, 1790, at Knockfin, near Maryborough, Queens County (now Portlaoise, County Laois). He is known for founding several hospitals, a medical school, and a medical journal. He contributes to science and academia through his 41-year term as Professor of Anatomy at the Royal College of Surgeons in Ireland (RCSI) and as the first Irish ocular pathologist. He is elected President of RCSI in 1837 and 1864.

Jacob is the second son of John Jacob, M.D. (1754–1827), surgeon to the Queen’s County infirmary, Maryborough, by his wife Grace (1765–1835), only child of Jerome Alley of Donoughmore. He studies medicine with his father and at Dr. Steevens’s Hospital, Kilmainham, Dublin, under Abraham Colles. Having graduated M.D. at the University of Edinburgh in 1814, he sets out on a walking tour through the United Kingdom, crossing the English Channel at Dover, and continuing his walk from Calais to Paris.

Jacob studies at Paris until Napoleon‘s return from Elba. He subsequently pursues his studies in London under Sir Benjamin Collins Brodie, Sir Astley Cooper, and Sir W. Lawrence. In 1819 he returns to Dublin and becomes demonstrator of anatomy under Dr. James Macartney at Trinity College Dublin. Here his anatomical research gains for him a reputation, and he collects a museum, which Macartney afterwards sells to the University of Cambridge.

On leaving Macartney, Jacob joins with Robert James Graves and others in founding the Park Street School of Medicine. In 1826 he is elected Professor of Anatomy and Physiology at Royal College of Surgeons in Ireland (RCSI) and holds the chair until 1869. He is elected President of RCSI in 1837 and 1864. He founds an Ophthalmic Hospital in Pitt (now Balfe) Street in 1829 and in 1832, in conjunction with Charles Benson and others, he founds the Baggot Street Hospital, Baggot Street, and later practices there after the opening of a dedicated eye ward. His younger rival, Sir William Wilde, subsequently founds the competing St. Mark’s Ophthalmic Hospital in Lincoln Place (beside Trinity College) in 1844.

In 1839, with Dr. Henry Maunsell, Jacob starts the Dublin Medical Press, a weekly journal of medical science, and edits forty-two volumes from 1839 to 1859, in order “to diffuse useful knowledge… to instil honourable principles, and foster kind feelings in the breast of the student” among other desirable aims. He also contributes to the Dublin Journal of Medical Science. He takes an active part in founding the Royal Medical Benevolent Fund Society of Ireland and the Irish Medical Association.

At the age of seventy-five Jacob retires from the active pursuit of his profession. His fame rests on his anatomical and ophthalmological discoveries.

In December 1860 a medal bearing Jacob’s likeness is struck and presented to him, and his portrait, bust, and library are later placed in the Royal College of Surgeons in Ireland. He dies at Newbarnes, Barrow-in-Furness, Cumbria, England, on September 21, 1874. He is buried at Mount Jerome Cemetery, Dublin.

In 1819 Jacob announces the discovery, which he had made in 1816, of a previously unknown membrane of the eye, in a paper in the Philosophical Transactions of the Royal Society. The membrane has been known since as membrana Jacobi and forms the retina. Apart from his discovery of the membrana Jacobi, he describes Jacob’s ulcer, and revives cataract surgery through the cornea with a curved needle, Jacob’s needle. To the Cyclopædia of Anatomy he contributes an article on the eye, and to the Cyclopædia of Practical Medicine treatises on Ophthalmia and Amaurosis.

In 1824 Jacob marries Sarah, daughter of Coote Carroll, of Ballymote, County Sligo. The marriage produces five sons. She dies on January 6, 1839.

(Pictured: Photograph of a marble bust of Arthur Jacob on the main staircase of the Royal Victoria Eye and Ear Hospital, Dublin, Ireland)


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Birth of Mary Ward, Astronomer, Microscopist, Author & Artist

Mary Ward (née King), Irish naturalist, astronomer, microscopist, author, and artist, is born in Ballylin near present-day Ferbane, County Offaly, on April 27, 1827. She is killed in 1869 when she falls under the wheels of an experimental steam car built by her cousins, thereby becoming the first person known to be killed by a motor vehicle.

King is the youngest child of the Reverend Henry King and his wife Harriette. She and her sisters are educated at home, as are most girls at the time. However, her education is slightly different from the norm because she is of a renowned scientific family. She is interested in nature from an early age, and by the time she is three years old she is collecting insects.

King is a keen amateur astronomer, sharing this interest with her cousin, William Parsons, 3rd Earl of Rosse, who builds the Leviathan of Parsonstown, a reflecting telescope with a six-foot mirror which remains the world’s largest until 1917. She is a frequent visitor to Birr Castle, producing sketches of each stage of the process. Along with photographs made by Parson’s wife, Mary Rosse, her sketches are used to aid in the restoration of the telescope.

King also draws insects, and the astronomer James South observes her doing so one day. She is using a magnifying glass to see the tiny details, and her drawing so impresses him that he immediately persuades her father to buy her a microscope. A compound microscope made by Andrew Ross is purchased for £48 12s 8d. This is the beginning of a lifelong passion. She begins to read everything she can find about microscopy, and teaches herself until she has an expert knowledge. She makes her own slides from slivers of ivory, as glass is difficult to obtain, and prepares her own specimens. The physicist David Brewster asks her to make his microscope specimens, and uses her drawings in many of his books and articles.

Universities and most societies do not accept women at the time, but King obtains information any way she can. She writes frequently to scientists, asking them about papers they had published. During 1848, Parsons is made president of the Royal Society, and visits to his London home allows her to meet many scientists.

King is one of only three women on the mailing list for the Royal Astronomical Society. The others are Queen Victoria and Mary Somerville, a scientist for whom Somerville College at the University of Oxford is named.

On December 6, 1854, King marries Henry Ward of Castle Ward, County Down, who in 1881 succeeds to the title of Viscount Bangor. They have three sons and five daughters, including Maxwell Ward, 6th Viscount Bangor. Her best-known descendants are her grandson, Edward Ward, the foreign correspondent and seventh viscount, and his daughter, the Doctor Who actress Lalla Ward.

When Ward writes her first book, Sketches with the microscope (privately printed in 1857), she apparently believes that no one will print it because of her gender or lack of academic credentials. She publishes 250 copies of it privately, and several hundred handbills are distributed to advertise it. The printing sells during the next few weeks, which prompts a London publisher to take the risk and contract for future publication. The book is reprinted eight times between 1858 and 1880 as A World of Wonders Revealed by the Microscope. A new full-colour facsimile edition at €20 is published in September 2019 by the Offaly Historical and Archaeological Society, with accompanying essays.

Her books are A Windfall for the Microscope (1856), A World of Wonders, Revealed by the Microscope (1857), Entomology in Sport, and Entomology in Earnest (1857, with Lady Jane Mahon), Microscope Teachings (1864), Telescope Teachings (1859). She illustrates her books and articles herself, as well as many books and papers by other scientists.

Ward is the first known automobile fatality. William Parsons’ sons had built a steam-powered car and on August 31, 1869, she and her husband are traveling in it with the Parsons boys, Richard Clere Parsons and the future steam turbine pioneer Charles Algernon Parsons, and their tutor, Richard Biggs. She is thrown from the car on a bend in the road at Parsonstown (present-day Birr, County Offaly). She falls under its wheel and dies almost instantly. A doctor who lives near the scene arrives within moments, and finds her cut, bruised, and bleeding from the ears. The fatal injury is a broken neck. It is believed that the grieving family destroys the car after the crash.

Ward’s microscope, accessories, slides and books are on display in her husband’s home, Castle Ward, County Down. William Parsons’ home at Birr Castle, County Offaly, is also open to the public.