Geopedia: A Brief Compendium of Geologic Curiosities, Prof Marcia Bjornerud

Geopedia is a trove of geologic wonders and the evocative terms that humans have devised to describe them. Featuring dozens of entries – from Acasta gneiss to Zircon – this illustrated compendium is brimming with lapidary and lexical insights that will delight rockhounds and word lovers alike. Geoscientists are magpies for words, and with good reason. The sheer profusion of minerals, landforms, and geologic events produced by our creative planet demands an immense vocabulary to match. Marcia Bjornerud shows how this lexicon reflects not only the diversity of rocks and geologic processes but also the long history of human interactions with them. 

With wit and warmth, she invites all readers to celebrate the geologic glossary – a gallimaufry of allusions to mythology, imports from diverse languages, embarrassing anachronisms, and recent neologisms. This captivating book includes cross-references at the end of each entry, inviting you to leave the alphabetic trail and meander through it like a river. Geopedia is a mix of engaging and entertaining facts about how the earth works, how it has coevolved with life over billions of years, and how our understanding of the planet has deepened over time.

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About the Author

Marcia Bjornerud is Professor of Geosciences and Environmental Studies at Lawrence University, a Fellow of the Geological Society of America and has been a Fulbright Senior Scholar at the University of Oslo and University of Otago. A contributing writer to The New Yorker, Wired, the Wall Street Journal and the Los Angeles Times, she is also the author of several books for popular audiences – Reading the Rocks: The Autobiography of the Earth and Timefulness: How Thinking Like a Geologist Can Help Save the World. Timefulness was longlisted for the 2019 PEN/E.O.Wilson Prize for Literary Science Writing, and was a finalist for the LA Times Book Prize in Science and Technology.

You can follow her work here:

Website: lawrence.edu/people/marcia-bjornerud-walter-schober-professor-of-environmental-studies-and-professor-of-geosciences

Professor Lise Meitner

Professor Elise ‘Lise’ Meitner was a physicist who discovered the element protactinium and developed a theory of nuclear fission.

Lise Meitner was born in 1878. Fascinated by science and mathematics from an early age, her educational opportunities were severely limited because of her sex, and she had to take private lessons so that she could sit her exams. In 1905, she became only the second woman to earn a doctorate in physics from the University of Vienna.

After initially studying optics, she moved on to radioactivity which was, at that point, a new field of study. She discovered that when a beam of alpha particles was fired at metal foil, its scattering would increase with the increased atomic mass of the metal atoms. Ernest Rutherford used the results of this experiment to then predict the nuclear atom.

Meitner was unusual in being allowed to attend Max Planck’s lectures, as Planck generally rejected the idea that women should be allowed to get an education but he recognised her as an exception. At this time, she was introduced to Otto Hahn, a chemist, with whom she began a lifelong collaboration. They developed a new way to detect isotopes and tests soon resulted in the discovery of two new isotopes. Meitner then began studying beta radiation.

Hahn and Meitner moved to the Kaiser Wilhelm Institute (KWI) for Chemistry, in 1912, where he became a professor whilst her position was as an unpaid ‘guest’. But later that year Plank employed her as an assistant, making her the first female scientific assistant in Prussia. She soon got promotion to associate, though, and later an increased salary to persuade her not to move to Prague.

With the outbreak of World War I, Meitner trained and then worked as an x-ray nurse-technician. She was discharged in 1916.

The next year, she was given her own lab at KWI, where she started to search for the ‘mother isotope’ of actinium. As the men at the institute had been called up, she did much of the work herself and discovered the first long-lived isotope of protactinium, for which she was awarded the Leibniz Medal.

At the beginning of World War II, when Austria was annexed by Germany, Meitner fled to Sweden. She and Hahn met in Copenhagen to discuss experiments that Hahn had conducted in his lab in Berlin. One key experiment showed that when uranium was bombarded with neutrons, it split into two, and one of the resulting elements, thought to be radium, behaved like barium.

Meitner and her nephew Otto Frisch, who was also a physicist, discussed the data and Meitner theorised that the uranium broke into barium (and krypton). If the element was barium, then this would be evidence of fission, but if it were radium, it could not be fission because radium was too big. But there was no theory for how uranium could decay into barium. The two of them worked out how this decay could occur, developing the theory of nuclear fission.

Meitner and Frisch came up with an experiment which would test this theory and asked Hahn to examine the byproducts of uranium bombardment in more detail. Hahn confirmed that it was indeed barium, not radium, proving Meitner’s theory of nuclear fission. It was clear that fission could produce large amounts of energy, and whilst this resulted in the Manhattan Project in the US, Meitner refused to have anything to do with research that might lead to the development of a bomb.

In 1944, Hahn received the Nobel Prize for Chemistry for his fission research, but Meitner’s work was ignored. She did, however, receive the Enrico Fermi Award in 1966 along with Hahn and his colleague Fritz Strassmann.

In 1992, element 109, which is currently the heaviest element in the known universe, was named Meitnerium (Mt) in her honour, one of just two elements named after women (the other, curium, was named after Marie Curie).

Further Reading

• Lise Meitner, Wikipedia
• Lise Meitner (1878 – 1968), Atomic Archive
• Lise Meitner, Atomic Heritage Foundation
• Meitner & Frisch On Nuclear Fission, Atomic Heritage Foundation
• Lise Meitner, New Scientist
• Otto Hahn, Lise Meitner, and Fritz Strassmann, Science History Institute
• Lise Meitner: A Physicist & Chemist Whose Legacy Lives On, Chemistry Talk
• This Month in Physics History – December 1938: Discovery of Nuclear Fission, American Physical Society, December 2007
• Science Stories: Lise Meitner, Philip Ball, BBC News World Service, 8 January 2018
• Lise Meitner – the forgotten woman of nuclear physics who deserved a Nobel Prize, Timothy J. Jorgensen, The Conversation, 7 February 2019
• Lise Meitner: the nuclear pioneer who escaped the Nazis, Philip Ball, BBC Science Focus, 3 December 2019
• Overlooked for the Nobel: Lise Meitner, Margaret Harris, Physics World, 5 October 2020
• Lise Meitner: A Noble Scientist, Olivia Fraser Barsby, McGill: Office for Science and Society, 4 March 2021

Dr Kateryna Yushchenko

Kateryna Yushchenko, Катерина Ющенко, was a Ukrainian computer scientist who developed the Address programming language, one of the world’s first high-level languages.

Yushchenko was born in 1919, in Chyhyryn in central Ukraine. In 1937, her father was arrested as a Ukrainian nationalist (he later died in a gulag) and when her mother tried to prove his innocence she was arrested and imprisoned for ten years. Yushchenko had just started studying at Kyiv University, but was expelled as a “daughter of enemies of the people”. The only institution that would accept her on a full state scholarship was Samarkand University in Uzbekistan.

Moving back to Ukraine after WW2, she was awarded her PhD in 1950 by the Kyiv Institute of Mathematics of the Ukrainian Academy of Sciences, the first woman in the USSR to get a PhD in physical and mathematical sciences in programming. She was a senior researcher for seven years, at which point she was appointed director of the Institute of Computer Science.

Two years later, the Institute bought the first MESM, or Small Electronic Calculating Machine, which was the first universally programmable computer in continental Europe, and Yushchenko was appointed head of the MESM laboratory. She realised that complex tasks could not be completed by the MESM, which had little memory and was very slow, without a high-level programming language, but that required a way for humans to program in that language.

To solve this problem, Yushchenko developed the Address programming language, which referred to memory cell addresses rather than numbers, several years before Fortran, COBOL or ALGOL. The Address programming language was used in most Soviet computers, including those that controlled the Apollo-Soyuz international space mission in 1975.

Yushchenko also worked on probability theory, algorithmic languages and programming languages, as well as developing automated data processing systems. She wrote a series of programming textbooks in the 1970s, including Elements of Programming, which was used across the USSR and the Eastern Bloc countries.

Further Reading

• Kateryna Yushchenko (scientist), Wikipedia
• Ukrainian Women and Girls In Science, Ukraine Now
• Kateryna Yushchenko: The Programmer Who Changed the World, Marta Shvets, STEM Is FEM
• Kateryna L. Yushchenko — Inventor of Pointers, Alvaro Videla, A Computer of One’s Own: Medium, 8 December 2018
• Kateryna Yushchenko, Emma Staves, Computing at School, 7 March 2022
• Early Ukrainian Women Scientists: Part 2 – From Mushrooms to Physics, a Programming Language, Plants, & Bees, Hilda Bastian, Absolutely Maybe: PLOS, 28 April 2022

Sticky: The Secret Science of Surfaces, Laurie Winkless

You are surrounded by stickiness. With every step you take, air molecules cling to you and slow you down; the effect is harder to ignore in water. When you hit the road, whether powered by pedal or engine, you rely on grip to keep you safe. The Post-it note and glue in your desk drawer. The non-stick pan on your stove. The fingerprints linked to your identity. The rumbling of the Earth deep beneath your feet, and the ice that transforms waterways each winter. All of these things are controlled by tiny forces that operate on and between surfaces, with friction playing the leading role.

In Sticky, Laurie Winkless explores some of the ways that friction shapes both the manufactured and natural worlds, and describes how our understanding of surface science has given us an ability to manipulate stickiness, down to the level of a single atom. But this apparent success doesn’t tell the whole story. Each time humanity has pushed the boundaries of science and engineering, we’ve discovered that friction still has a few surprises up its sleeve.

So do we really understand this force? Can we say with certainty that we know how a gecko climbs, what’s behind our sense of touch, or why golf balls, boats and aircraft move as they do? Join Laurie as she seeks out the answers from experts scattered across the globe, uncovering a stack of scientific mysteries along the way.

Order the book on Bookshop.org.uk here and your purchase will support a local independent bookshop of your choice!

About the Author

Laurie Winkless is an Irish physicist-turned-science-writer, currently based in New Zealand. After her post-grad, she joined the UK’s National Physical Laboratory as a research scientist, where she specialised in functional materials. She is an experienced science communicator, who loves talking about science in all forms of media. Since leaving the lab, Laurie has worked with scientific organisations, engineering companies, universities, and astronauts, amongst others. Her writing has featured in outlets including Forbes, Wired, Esquire, and The Economist, and her first book, Science and the City: The Mechanics Behind the Metropolis, was published by Bloomsbury Sigma in 2016.  

You can follow her work here:

Twitter: @laurie_winkless
LinkedIn: linkedin.com/in/laurie-winkless
Website: lauriewinkless.com

Professor Neena Gupta

Neena Gupta, born in India in 1984, is a mathematician specialising in commutative algebra and affine algebraic geometry. She is based at the Indian Statistical Institute (ISI).

Gupta used to spend hours doing maths as a young girl and loved solving mathematical problems. She was initially taught by her mother before going to school and then college, graduating in Mathematics. She eventually received a PhD in algebraic geometry and then became a visiting scientist at the ISI. She took up a short fellowship at the Tata Institute of Fundamental Research and then won an assistant professorship position from the Indian Department of Science and Technology, allowing her to return to the ISI. She is now an associate professor at the Theoretical Statistics and Mathematics Unit at ISI.

In 2014, Gupta solved the Zariski Cancellation Problem originally posed in 1949 by Oscar Zariski, who was a highly influential mathematician in algebraic geometry. The Zariski Cancellation Problem is considered to be one of the most difficult problems in maths, and was a topic that Gupta ruminated on while she was completing her PhD. She describes the problem thus: “The cancellation problem asks that if you have cylinders over two geometric structures, and that have similar forms, can one conclude that the original base structures have similar forms?”. For completing this problem, she was awarded the Young Scientists Award, with the Indian National Science Academy considering her work the best research they had seen in algebraic geometry in some time. 

Gupta has also won other awards for her work. She won the Saraswathi Cowsik Medal (2013), the Swarnajayanti Fellowship (2014), the A.K. Agarwal Award (2015), and the Ramanujan Prize for Young Mathematicians from Developing Countries (2021). She was also the youngest recipient of the highly coveted Shanti Swarup Bhatnagar (SSB) Prize in 2019, which is awarded by the Prime Minister of India and provides a monthly endowment until age 65. She is still studying Zariski today.

Further Reading

• Neena Gupta (mathematician), Wikipedia
• Dr Neena Gupta, Indian Statistical Institute
• Meet Neena Gupta, Who Solved A Math Problem That Remained Unsolved For Almost 70 Years, Ananta Sharma, Storypick, 30 December 2015
• At 35, Dr Neena Gupta Is The Youngest Awardee Of Shanti Swarup Bhatnagar Prize for Cracking 70-Year-Old Mathematics Conundrum, First Post, 11 December 2019
• Celebrating Women in STEM: Dr. Neena Gupta, Madalyn Weston, UKMC Roo News, 3 April 2020
• Meet Mathematician Dr Neena Gupta, Who Solved 70-Year-old Zariski Cancellation Problem, Arunima Sharma, She The People, 16 December 2020
• No one thought I could make it: Ramanujan Prize winner Neena Gupta who solved Zariski problem, Shubhangi Misra, The Print, 15 December 2021
• How 2021 Ramanujan Prize winner Neena Gupta is busting myths in Mathematics, Suha Roy, Telegraph India, 17 January 2022
• Professor Neena Gupta receives Ramanujan Prize for Young Mathematicians, Department of Science & Technology, February 2022