The Life of Madame Curie :: Essays Papers

The Life of Madame curieMadame Curie was natural Maria Sklodowska on November 7,1867, in Warsaw Poland. Maria was the fifth and unripenedest chela of Bronsilawa Boguska, a pianist, singer, and teacher, and Wladyslaw Sklodowski, a professor of mathematics and physics. Marias accomplishments began at a young age by the time she was sixteen she had completed secondary civilize and taken action as a teacher. In 1891 Maria went to Paris, eyepatch in Paris Marie attend Sorbonne University and began to follow lectures of many already puff up known physicists--Jean Perrin, Charles Maurain, and Aime Cotton. It was during this time that Marie finally turned towards mathematics and physics. Within one-third years of attending Sorbonne Marie was already on her way to becoming the well-nigh well recognized women in science. Marie was the ideal example of hard work. Receiving her stop in physics from the Sorbonne in 1893, she was not only the first charwoman to receive such a degr ee but she graduated material body one in her class. In 1894, she received her second degree in mathematics, graduating second in the class. That same year Marie met Pierre Curie, an aspiring French physicist. A year later Maria Sklodowska became Madame Curie. Marie and Pierre worked as a scientific team, in 1898 their achievements resulted in world importance, in particular the husking of polonium (which Marie named in honor of Poland) and the discovery of Radium a some months later. The birth of her two daughters, Irene and Eve, in 1897 and 1904 did not interrupt Marias work. In 1903, Curie became the first woman to win a Nobel revalue for Physics. The award jointly awarded to Curie, her husband Pierre, and Henri Becquerel, was for the discovery of radioactivity. In December 1904 she was appointed chief participator in the laboratory directed by Pierre Curie. Pierres sudden termination in April 1906 was a difficult blow to Maria, but a bout point in her career she wa s devoted to completing the scientific work they had started. In 1911 her determination paid off, she won a second Nobel Prize (this time in chemistry) for her discovery and isolation of pure celestial longitude and radium components.