User:Toploftical/Workpage 3

Mark Joseph Stern (born May 24, 1987) is a senior writer covering courts and the law for Slate Magazine.^[1] Based in Washington, DC, he has covered the U.S. Supreme Court.

His areas of expertise include LGBTQ+ equality, reproductive rights, criminal justice, and Supreme Court jurisprudence.

Mark holds a J.D. from Georgetown University Law Center and a B.A. in History and Art History from Georgetown University.

• American Justice 2019: The Roberts Courts Arrives, University of Pennsylvania Press (2019), ISBN 9780812252132

He and his husband welcomed a son in 2023 and are the proud caretakers of one rescue dog and three adopted birds.

• Official website

Category:Slate (magazine) people

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Category:American political podcasters

Category:American political commentators

Category:Progressivism in the United States

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Google link for Mark Joseph Sterns

Jacqueline Akinpelu (born 1953) Jacqueline Akinpelu grew up in Winston Salem, North Carolina in the 1960s. S

After her graduate studies, Akinpelu was hired by AT&T’s Bell Laboratories. During her more than 25-year career there, she held various positions, eventually overseeing a team of over 200 people and a budget of up to $36 million. During this time, she modeled the behavior of a new methodology for planning and managing telephone network call capacity under non-engineered traffic conditions. She also worked with a team to develop strategies for maintaining the network’s stability under all network conditions. This work was vital to the evolution of AT&T’s long-distance network. She also had a great influence on improving the workplace environment at AT&T and shaped their minority recruitment program.

In 2006, Akinpelu joined the Johns Hopkins University Applied Physics Laboratory (JHUAPL) as an intelligence systems engineer. She built an outreach program between JHUAPL and Morgan State University in order to prepare their students for professional careers. In 2009, she received the Women of Color Technology Award for Career Achievement in Government. Over her industrial career, Akinpelu used algebra, operations research, probability and statistics, and stochastic models for her various projects.

Click here for a video interview with Meet a Mathematician!

She got a BA in mathematics from Duke University in 1975, graduating magna cum laude. She received her PhD in Mathematical Sciences in 1980 from Johns Hopkins University, where she wrote her thesis on a topic in inventory systems management.

• 2019 Honoree Black History Month^[1]
• 2017 Heritage Award^[2]
• 2009 Women of Color Award Winner^[3]

Jacqueline (Jackie) Akinpelu is featured for her contributions to research mathematics; mathematics in business, industry, and government; to establishing, cultivating, and sustaining mathematical communities; and to increasing the participation of women and underrepresented groups.

• Mathematicians of the African Diaspora

Jacqueline Akinpelu Assistant Branch Supervisor

Johns Hopkins University Applied Physics Laboratory

I grew up in 1960’s in Winston Salem, NC. in a low-income, single parent household. At the time, the schools in Winston-Salem were segregated but, due primarily to the dedication of my teachers and my own motivation, I received a very strong public school education. For as long as I can remember, even before I started school, I had a love for mathematics. I think there was something about both the logic of math and the fact that in math there was a “right answer” that appealed to me (clearly before I knew about stochastic mathematics). For a long time, I wanted to be a math teacher, but in high school I started to think about working in jobs where I could “apply” mathematics (though I only had a vague idea of what that meant).

at the Johns Hopkins University that I got my first real exposure to “applied mathematics,” and I completed a doctoral thesis on a topic in inventory systems management.

In 1980 I joined AT&T Bell Laboratories in Holmdel, NJ. Eventually I had a 25- year career at Bell Laboratories and, after the breakup of the Bell System, AT&T Laboratories. Two projects during this time stand out for me as highlights of my career in the mathematical sciences. My first project at Bell Laboratories was to model the behavior of a new methodology for planning and managing telephone network call capacity under non-engineered traffic conditions, and to work with a team to develop strategies for maintaining the network’s stability under all network conditions. This was one of my first opportunities to apply my mathematics expertise to solve a real-world problem – and I learned a lot about how to tackle an ill-defined problem and achieve tangible results. I also learned a lot about working in a team and effectively communicating technical information. The second project was to model the performance of a proposed signaling protocol for voice switched networks. This was another opportunity to use my expertise in mathematical sciences, this time to develop effective message flow control mechanisms, but it also gave me the opportunity to work in a team on the international level through participation in standards body deliberations. Building on my technical successes, I went on to become a manager, leading organizations responsible for providing technology for planning, engineering, provisioning and maintenance of the AT&T long distance network.

During my time at AT&T I learned the importance of mentoring. I have mentored hundreds of people over my career, first at AT&T and, more recently, at the Johns Hopkins University Applied Physics Laboratory (JHUAPL), where I continued my career after leaving AT&T. I'm proud of the outreach that I built at JHUAPL to Morgan State University, which includes mentoring students to prepare them for professional careers and developing research partnerships with the university. I have also worked to improve the work environment for all employees, both at AT&T and JHUAPL. I sincerely believe that we have an obligation to create work environments where those coming behind us can be successful, and to return to our communities to share what we have learned.

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• 2020: Modeling Dynamical Systems for 3D Printing (with Stephen Lucas & Evelyn Sander), Notices of the American Mathematical Society, Vol. 67, No.11, p. 1692-1705
• 2020: Wallpaper Patterns for Lattice Designs (with Carolyn Yackel), Proceedings of Bridges Aalto, p. 223-230
• 2020: Optimizing Morton’s Tritangentless Knots for Rolling (with Stephen Lucas & Abigail Eget), Proceedings of Bridges Aalto, p. 367-370
• 2019: Opportunity costs in the game of best choice, (with Michael Urbanski, et.al.), Electronic Journal of Combinatorics, Vol. 26, Issue #1

• Personal website

• Toploftical/Workpage 3 at the Mathematics Genealogy Project

Category:Recreational mathematicians

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Category:James Madison University faculty

Category:1996 births

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Category:Oak Ridge National Laboratory people

Category:Alumni of Queen's University Belfast

Laura Anne Taalman, also known as mathgrrl, is an American mathematician known for her work on the mathematics of Sudoku and for her mathematical 3D printing models. Her mathematical research concerns knot theory and singular algebraic geometry; she is a professor of mathematics at James Madison University. Wikipedia Education: Duke University, The University of Chicago Research interests: Computational Design, Knot Theory, Games and Puzzles, Singular Algebraic Geometry

• links from Ernst Öpik, Lembit Öpik, Student Society Liivika, Ray Flannery
• Uuno Öpik on Estonian WP

• Professor M. Raymond Flannery

(Martin) Raymond Flannery was the son of James and Bridget (née Lohan) Flannery of Tubbercurry and Roscommon respectively. His parents were schoolteachers at a two teacher school at Athnahoney, near Claudy, and had seven children. The family moved to Derry City in 1945.

He has presented over 44 invited papers at national and international scientific conferences and many invited colloquia at Universities. He delivered the Commencement Addresses at Graduation '95 of Georgia Institute of Technology and at Graduation '98 of Queen's University of Belfast. He served (1978-85) on the Editorial Board of the International Journal of Quantum Chemistry, served (1981-3, 1986-88) on the Executive Board of the Gaseous Electronics Conference and was appointed (1994-2000) a Divisional Associate Editor of The Physical Review Letters. He is currently a member of the Editorial Board of the Atomic and Molecular Physics Handbook (Springer Press) and an Editor of the Springer Book Series on Atomic, Optical and Plasma Physics.

He was awarded various Prizes from the Georgia Tech Chapter of Sigma-Xi, "for best paper" in 1974, "for best Ph. D thesis advisor and outstanding research" in 1975 and in 2001, and "for sustained research" in 1992. He received the Distinguished Professor Award from Georgia Institute of Technology in 1995 "in recognition of his sustained scholarship, leadership, achievement and excellence in teaching, research and service."

He was elected in 1997 an Honorary Member of the Royal Irish Academy, one of thirty honorary members worldwide in the Section of Science, in recognition of his distinguished services in the Section of Science. He is the recipient of the 1998 Allis Prize, awarded by the American Physical Society for advancing the understanding of recombination processes; in particular for developing a microscopic theory of three-body ionic recombination; and for his novel applications of classical and quantum mechanical methods to the dynamics of atomic, molecular and ionic systems." The Queen's University of Belfast awarded him in 1998, the degree of Doctor of Science, D.Sc. degree (honoris causa) for "his distinction as a scientist." He is the recipient of the 2001 award of "Alumnus Illustrissimus" of St. Columb’s College, Derry. He is the recipient of the 2002 Sir David Bates Prize awarded by the UK Institute of Physics (Division of Atomic, Molecular, Optical and Plasma Physics), London, for “ his distinguished contributions to the field of theoretical atomic physics and, in particular, for his studies of recombination processes with applications to astrophysics and plasma physics.” He is also the recipient of the 2002 Jesse W. Beams Award of the Southeastern Section of the American Physical Society " for his pioneering, seminal, influential and enduring contributions to Atomic and Molecular Collision Physics."

His research focuses on recombination processes. In other words, he studies how electrons, ions and atoms move about, collide, and then combine to form new atoms and molecules. These are essential to understanding the ozone layer as well as planetary and stellar atmospheres. Recombination theory is also important in advanced technologies such as microelectronic circuitry and plasma processing of materials. Currently, Ray is working on a recombination process that he hopes will produce anti-matter at cryogenic temperatures (4 degrees Kelvin). Besides shedding light on origins of the universe and its subsequent evolution, this research might produce a future source of rocket fuel required for interplanetary travel.

• Mathematicians of EvenQuads Deck 1
• Jacqueline Akinpelu (b. 1953)
• Sylvia Celedón-Pattichis (PhD in 1998)
• Rosemary Guzman (PhD in 2011)
• Guadalupe Inés Lozano Guada Lozano (b. 1971)
• Nora G. Ramirez (2000)
• Ivelisse Rubio (b. 1962)

• Mathematicians of EvenQuads Deck 2
• Julia Maria Aguirre (b. 1966) $
• Sandra Crespo (b. 1966) $
• María Angélica Cueto (b. 1981)
• Valeria Espinosa (b. 1980s) $
• Ruth Gonzalez (b. mid 1950s)
• Ilana Seidel Horn (b. 1971)
• Shirley Ann Mathis McBay (1935–2021)
• Veena Mendiratta (b. 1948)
• Perla Myers (b. 1968)
• Aisha Nájera (b. 1981)
• Annie Raymond (b. 1986)
• Angela Robinson (b. 1971) wrong Angela Robinson
• Laurie Rubel (b. 1970s)
• Suzanne Sindi (b. 1970s)
• Shelby Wilson (b. 1985) wrong Shelby Wilson
• Lucía Zapata Cardona (b. 1970s) $
• María del Rosario Zavala (b. 1980s)