Problem: Background: Louis-Dreyfus was born in New York City. Her American-born mother, Judith (nee LeFever), was a writer and special needs tutor, and her French-born father, Gerard Louis-Dreyfus, chaired Louis Dreyfus Energy Services. She is a great-great-granddaughter of Leopold Louis-Dreyfus, who in 1851 founded the Louis Dreyfus Group, a French commodities and shipping conglomerate, which members of her family control into the 21st century. Her paternal grandfather, Pierre Louis-Dreyfus, was president of the Louis Dreyfus Group.
Context: In the early 1990s, Louis-Dreyfus became famous for the role of Elaine Benes on NBC's Seinfeld. She played the role for nine seasons, appearing in all but three episodes. One of the episodes that she did not appear in was the inaugural pilot episode, "The Seinfeld Chronicles", because her character was not initially intended to be a part of the series. It was only after the first episode that NBC executives felt the show was too male-centric, and demanded that creators Jerry Seinfeld and Larry David add a woman to the cast. It was revealed in the commentary on the DVD package that the addition of a female character was the condition for commissioning the show. Louis-Dreyfus won the role over several other actresses who would also eventually enjoy their own TV success, including Patricia Heaton, Rosie O'Donnell and Megan Mullally.  On the "Notes About Nothing" featurette on the DVD package, Seinfeld says that Louis-Dreyfus' ability to eat a peanut M&M without breaking the peanut aptly describes the actress: "She cracks you up without breaking your nuts."  Her performance on the series was met with critical acclaim, and she was a regular winner and nominee at television award shows throughout the 1990s. Her performance earned her two Golden Globe Award nominations, winning once in 1994, nine Screen Actors Guild Award nominations, winning one in 1995 and two in both 1997 and 1998, and seven American Comedy Awards, winning five times in 1993, 1994, 1995, 1997 and 1998. In 1996, she received the Primetime Emmy Award for Outstanding Supporting Actress in a Comedy Series, an award she was nominated for on seven occasions from 1992 to 1998. After receiving the award, Louis-Dreyfus claimed the win was a "shocker", and that after being in both positions, it was "much better to win than to lose."  In 1998, Seinfeld decided to end the series after nine seasons. The series finale aired on May 14 and was one of the most watched TV events in history, with over 76 million people tuning in.  During her time on Seinfeld she appeared in several films, including Fathers' Day, opposite Robin Williams and Billy Crystal, and Woody Allen's Oscar-nominated Deconstructing Harry.
Question: Did anything interesting happen during her Seinfeld years?
Answer: her character was not initially intended to be a part of the series.

Problem: Background: Claude Elwood Shannon (April 30, 1916 - February 24, 2001) was an American mathematician, electrical engineer, and cryptographer known as "the father of information theory". Shannon is noted for having founded information theory with a landmark paper, A Mathematical Theory of Communication, that he published in 1948. He is, perhaps, equally well known for founding digital circuit design theory in 1937, when--as a 21-year-old master's degree student at the Massachusetts Institute of Technology (MIT)--he wrote his thesis demonstrating that electrical applications of Boolean algebra could construct any logical, numerical relationship. Shannon contributed to the field of cryptanalysis for national defense during World War II, including his fundamental work on codebreaking and secure telecommunications.
Context: In 1932, Shannon entered the University of Michigan, where he was introduced to the work of George Boole. He graduated in 1936 with two bachelor's degrees: one in electrical engineering and the other in mathematics.  In 1936, Shannon began his graduate studies in electrical engineering at MIT, where he worked on Vannevar Bush's differential analyzer, an early analog computer. While studying the complicated ad hoc circuits of this analyzer, Shannon designed switching circuits based on Boole's concepts. In 1937, he wrote his master's degree thesis, A Symbolic Analysis of Relay and Switching Circuits, A paper from this thesis was published in 1938. In this work, Shannon proved that his switching circuits could be used to simplify the arrangement of the electromechanical relays that were used then in telephone call routing switches. Next, he expanded this concept, proving that these circuits could solve all problems that Boolean algebra could solve. In the last chapter, he presents diagrams of several circuits, including a 4-bit full adder.  Using this property of electrical switches to implement logic is the fundamental concept that underlies all electronic digital computers. Shannon's work became the foundation of digital circuit design, as it became widely known in the electrical engineering community during and after World War II. The theoretical rigor of Shannon's work superseded the ad hoc methods that had prevailed previously. Howard Gardner called Shannon's thesis "possibly the most important, and also the most noted, master's thesis of the century."  Shannon received his Ph.D. degree from MIT in 1940. Vannevar Bush suggested that Shannon should work on his dissertation at the Cold Spring Harbor Laboratory, in order to develop a mathematical formulation for Mendelian genetics. This research resulted in Shannon's PhD thesis, called An Algebra for Theoretical Genetics.  In 1940, Shannon became a National Research Fellow at the Institute for Advanced Study in Princeton, New Jersey. In Princeton, Shannon had the opportunity to discuss his ideas with influential scientists and mathematicians such as Hermann Weyl and John von Neumann, and he also had occasional encounters with Albert Einstein and Kurt Godel. Shannon worked freely across disciplines, and this ability may have contributed to his later development of mathematical information theory.
Question: What are some other interesting aspects about this article?
Answer:
In 1937, he wrote his master's degree thesis, A Symbolic Analysis of Relay and Switching Circuits, A paper from this thesis was published in 1938.