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Marie Curie is a remarkable woman
Marie Curie is a remarkable woman
Scientific contributions of marie curie essay
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Marie Curie is the most influential person in history. Her discovery of radium and its uses in science and technology have grown rapidly throughout history, which has contributed to everything from health science to national security. Medical care and airport security would not be as accurate or efficient without X-ray machines and radiotherapy. Marie Curie’s discovery of radium transformed science, medicine, and the roles of women throughout history. As one of the first female scientists, Marie Curie was influential in expanding roles for women in society.
Marie Curie’s discovery of radium impacted almost every form of science and technology. Without radium, some things we use in our scientific world would not be as effective or even available. “[It’s] used in electricity plants, navy submarines and ships, spacecraft in deep space, and pacemakers” (McClafferty, 115). Besides outer space and medicine, radium is also found in smoke detectors, starters for florescent lights, mantles of gas camping lamps, and welding rods.
X-ray machines make a huge impact in science and medicine. They contain radium and are able to see through, objects big and small. Without x-ray machines, our everyday lives would not be the same. Hospitals use x-ray machines to analyze the anatomy of the human body, as well as to evaluate and diagnose. Before x-ray machines were used in hospitals, doctors would perform surgery to detect injuries in patients. Factories, airports, and manufacturing would be less efficient without the ability to see through objects and analyze problems. “X-rays can tell us about the structure of the world - without X-rays we would not know that our genes are arranged in the spiral-staircase like form of the double-helix” (The Ro...
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McClafferty, Carla Killough. "Legacy." Something out of nothing: Marie Curie and radium. New York: Farrar Straus Giroux, 2006. 114-15.
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In chapter 8 titled "Radium (Ra)" of The Poisoner's Handbook by Deborah Blum, the most interesting story developed within this chapter was the death of dial workers at Orange, New Jersey after been exposed to radium every day. It was interesting due to the fact that radium was used everywhere in the community and was never thought it could harm anyone. Radium was a super element that was used everywhere, but its continuous use unmasked its fatal habits. As it was stated in the text, "Radiant health, the ads proclaimed-beautiful skin, endless vigor, and eternal health—ingesting radium seemed the next best thing to drinking sunlight." (Blum 179). People were accepting radium as a natural gold element but they haven't realized constant contact
Imagine working with radioactive materials in a secret camp, and the government not telling you that this material is harmful to your body. In the book Plutopia: Nuclear Families, Atomic Cities, and the Great Soviet and American Plutonium Disasters by Kate Brown, she takes her readers on a journey to expose what happened in the first two cities that started producing plutonium. Brown is an Associate Professor of History at University of Maryland, Baltimore County. She has won a handful of prizes, such as the American Historical Association’s George Louis Beer Prize for the Best Book in International European History, and was also a 2009 Guggenheim Fellow. Brown wrote this book by looking through hundreds of archives and interviews with people,
Rosalyn Sussman Yalow graduated Hunter College as the first women to graduate in physics (Bauman et. al. 2011). She also led a way for acceptance and understanding of women’s role in science in America (Bauman et. al. 2011). She even inspired Mildred Dresselhous, who was a professor at Massachusetts Institute of Technology (MIT) and president and officer of many Associations including American Association for the Advancement of Science, to pursue the career she wanted (Bauman et. al. 2011). Rosalyn born to Clara and Simon Sussman in New York City, on July 19, 1921 (Brody 1996). She married Aaron Yalow on June 6, 1943 and had two children named Elanna and Benjamin (Brody 1996). In 1977, Dr. Yalow won the Nobel Prize in medicine and was the second women to ever accept such an award (Brody 1996). She also taught physics in New York until 1950 when the Veterans Administration (during World War II) was interested in exploring and researching radioactivity (Brody 1996). As her life progressed, Dr. Rosalyn Sussman Yalow became an inspiration for young women who want to be recognized and achieve something in their life (Brody 1996). From when she was a child she was fascinated with science and decided to achieve something no women really does. Rosalyn Yalow went to school and started working in the science field, she managed to help the world of radioactivity and radioimmunoassay, how Mrs. Rosalyn impacted the world of science, how Dr. Yalow impacted the lives of other women, and how she never lost her passion for science even in her last years.
Elizabeth Blackwell was notably one of the most influential people to both medicine and women’s rights. Although her most famous achievement was being the first woman to graduate from medical school, Dr. Elizabeth Blackwell's accomplishments did not end there, she devoted her life to helping others-both in healing and in education, and also with the help of colleagues founded the New York Infirmary for Women and Children. She was one of the most influential women of her time.
However, once the public caught wind of these magic rays, the x-rays popularity skyrocketed. Within 6 months after the announcement of the discovery of x-rays the United States and Europe had built many medical x-ray machines to aid in surgery, and even x-ray machines for the battle field, in which field medics would use the rays to locate bullets in the bodies of wounded soldiers. (1.) While the x-rays gained popularity in the minds of the people of the world, they did not sell well. Befor...
Marie Curie (1898-1934): Marie Curie was a Polish physicist and chemist who conducted pioneering research on radioactivity. In 1903, she shared the Nobel Prize in Physics with her husband, and in 1911 won the Nobel Prize in Chemistry. She was the first woman to win a Nobel Prize, the first person and only woman to win the Nobel Prize twice, and the only person to win a Nobel Prize in two different sciences. Through her experiments she developed the theory of radioactivity and techniques for isolating radioactive isotopes, as well as discovering two new elements: radium and polonium.
depression. At the young age of six, her father lost his job and her family
What would Wilhelm Roentgen, the father of X-ray, say about the technological discoveries in radiology today? Since the start of X-rays in 1895 significant advancements have revolutionized the field of radiology. One illustrates how different scanners have improved, in addition how picture archiving communication system can assist doctors, and finally the outlook on the future of radiology.
One of the strongest women scientist/astronomer was born in 1818 as Maria Mitchell whom led an unbelievable life and had an incredible discovery. Maria Mitchell was born when women were not given the opportunity to vote nor did women have the same equal rights as men did, but given her circumstances of her father being a principal, founding his own school and being a distant family member of Benjamin Franklin she was given the same rights as the men did. Given a few obstacles she led an extraordinary life and became the first woman in America to work as an astronomer professionally, which she than later received an award personally from King Frederick VII, for her work and discovery.
Today I’m going to inform you about X-ray Technology its history and how it been advancing since it’s been invented. Also will inform you how it is currently helping doctors and their patients.
Marie Curie was born, Maria Sklodowska on November 7, 1867. She grew up in Warsaw, Poland. She would become famous for her research on radioactivity. Marie Curie was the first woman to ever win a Nobel prize, and the first ever to win two Nobel prizes. She is most famous for the discovery of Radium and Polonium. Her work not only influenced the development of fundamental science, but also began a new era in medical research and treatment.
When most people think of the Scientific Revolution, they think of scientists such as Galileo, Newton, Brahe, and Boyle. However, many people do not even know about the many women who played a vital role in the scientific advancements of this period. Even when these women were alive, most of society either ignored them or publicly disapproved their unladylike behavior. Because of this, these women were often forgotten from history, and very little is known about the majority of them. Although their names rarely appear in history books, the female scientists of the Scientific Revolution still impacted the world of science in several ways. In fact, all of the scientists listed above had a woman playing an influential role assisting them in their research. However, assisting men in their studies was not the only role open to women; several women performed experimentation and research on their own, or advancing science in some other way, even though the society of the time looked down upon and even resisted their studies.
Did you know that rhodium is the rarest of all precious metals? It was discovered in 1803 in London by English chemist William Hyde Wollaston. He obtained the metal from an original sample of platinum ore in South America. The product was a dark red powder that Wollaston treated with hydrogen gas in order to get what we now call rhodium. The element name is derived from the Greek word Rhodon, which means rose-colored (Thomas Jefferson NAF).
Uranium, a radioactive element, was first mined in the western United States in 1871 by Dr. Richard Pierce, who shipped 200 pounds of pitchblende to London from the Central City Mining District. This element is sorta boring but I found something interesting, they used it to make an an atomic bomb in the Cold War. In 1898 Pierre and Marie Curie and G. Bemont isolated the "miracle element" radium from pitchblende. That same year, uranium, vanadium and radium were found to exist in carnotite, a mineral containing colorful red and yellow ores that had been used as body paint by early Navajo and Ute Indians on the Colorado Plateau. The discovery triggered a small prospecting boom in southeastern Utah, and radium mines in Grand and San Juan counties became a major source of ore for the Curies. It was not the Curies but a British team working in Canada which was the first to understand that the presence of polonium and radium in pitchblende was not due to simple geological and mineral reasons, but that these elements were directly linked to uranium by a process of natural radioactive transmutation. The theory of radioactive transformation of elements was brilliantly enlarge in1901 by the New Zealand physicist Ernest Rutherford and the English chemist Frederick Soddy at McGill University in Montreal. At dusk on the evening of November 8, 1895, Wilhelm Rontgen, professor of physics at the University of Wurzburg in Germany, noticed a cathode tube that a sheet of paper come distance away. He put his hand between the tube and the paper, he saw the image of the bones in his hand on the paper.
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 discovery of polonium (which Marie named in honor of Poland) and the discovery of Radium a few months later. The birth of her two daughters, Irene and Eve, in 1897 and 1904 did not interrupt Maria's work. In 1903, Curie became the first woman to win a Nobel Prize 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 assistant in the laboratory directed by Pierre Curie.