Tanpa Sadar, Kejeniusannya Menemukan Radioaktif Perlahan Merenggut Nyawa | Marie Curie

Fajrul Fx

23 Oct 202418:11

Summary

TLDRMarie Curie, a groundbreaking scientist, was the first woman to win a Nobel Prize and remains the only person to win Nobel Prizes in two different fields. Born in 1867 in Poland, she defied societal limitations, studying physics and chemistry in Paris. Together with her husband, Pierre Curie, she discovered polonium and radium, contributing to advances in medicine and technology. Her work on radioactivity, however, took a toll on her health, ultimately leading to her death in 1934 from radiation exposure. Curie's legacy continues to inspire the scientific world and women in STEM.

Takeaways

😀 Mary Curie, a renowned physicist and chemist, made groundbreaking contributions to the world of science, particularly in radiation research.
😀 In 1927, Mary Curie was the only woman among 29 of the best physicists at the Solvay Conference in Belgium, many of whom had won Nobel Prizes.
😀 Mary Curie is the only person to have won Nobel Prizes in two different scientific fields: Physics and Chemistry.
😀 Mary Curie was born in Warsaw, Poland, on November 7, 1867, and was raised in a family that highly valued education and science.
😀 Despite facing significant challenges, including the death of her mother and financial hardships, Mary was determined to pursue her education in science.
😀 Mary defied the Russian rule that prevented women from attending university in Poland by joining a secret school called 'Flying University' and later moved to Paris to study at the University of Sorbonne.
😀 While living in Paris, Mary Curie struggled financially but continued her education and research, eventually earning degrees in both Physics and Mathematics.
😀 Mary Curie and Pierre Curie began working together in radiation research, which led to the discovery of two new elements: Polonium and Radium.
😀 In 1898, Mary and Pierre Curie successfully isolated Polonium, and later Radium, both of which emitted significantly stronger radiation than uranium.
😀 Mary Curie received the Nobel Prize in Physics in 1903, and later won her second Nobel Prize in Chemistry in 1911 for her work with radium, becoming the first woman to win two Nobel Prizes.
😀 The Curies' discovery of radium had far-reaching implications, including in medical therapies for cancer, but they did not fully understand the dangers of radiation exposure at the time.
😀 Tragically, Mary Curie's constant exposure to radiation, often carrying radioactive materials around in her pockets, led to her death from aplastic anemia in 1934, a condition linked to radiation exposure.
😀 Even after her death, Mary Curie's body and personal belongings continued to emit radiation, and her grave in Paris is shielded with lead to contain it.

Q & A

Who was Marie Curie and what were her major contributions to science?
-Marie Curie was a pioneering scientist known for her groundbreaking work in physics and chemistry. She made major contributions to the study of radioactivity, discovering the elements polonium and radium, and became the first person to win two Nobel Prizes—one in Physics and another in Chemistry.
What were the challenges Marie Curie faced in her early education?
-Marie Curie faced significant challenges in her early education, particularly due to the Russian occupation of Poland, which prohibited women from attending universities. Despite this, she joined a secret underground educational system known as the 'Flying University' to continue her studies in physics and chemistry.
How did Marie Curie manage to study in Paris despite financial difficulties?
-Marie Curie moved to Paris at the age of 24 to attend the University of Sorbonne, where she faced severe financial hardships. She lived a very modest life, often going without food, but remained committed to her studies and eventually earned degrees in both physics and mathematics.
What led Marie Curie to discover the elements polonium and radium?
-Marie Curie’s research on the mineral pitchblende (now known as uraninite) led her to discover two new elements. While investigating the radiation emitted by the mineral, she isolated polonium, which was more radioactive than uranium, and later discovered radium, which was even more radioactive.
Why did Marie Curie name the element polonium?
-Marie Curie named the element polonium in honor of her homeland, Poland, as a way to draw international attention to the country’s struggle for independence at the time.
What was the significance of Marie and Pierre Curie's joint research?
-Marie and Pierre Curie’s joint research was crucial in advancing the understanding of radioactivity. Their work led to the discovery of polonium and radium, which contributed significantly to the field of nuclear physics and paved the way for future research in medicine, including cancer treatment.
What was the societal impact of radium after its discovery?
-After its discovery, radium was hailed as a miracle substance and was used in various products, from toothpaste and cosmetics to medical treatments. However, the dangers of its radioactivity were not yet understood, leading to widespread misuse and health consequences.
How did Marie Curie continue her research after Pierre Curie’s death?
-After Pierre Curie’s tragic death in 1906, Marie continued their joint research alone. She received her second Nobel Prize in Chemistry in 1911 for isolating radium and studying its properties, becoming the first and only person to win Nobel Prizes in two different scientific fields.
How did Marie Curie’s discoveries impact medical technology during World War I?
-During World War I, Marie Curie developed portable X-ray machines, known as 'Petit-Curies,' which were used by doctors to locate and remove shrapnel from soldiers. This technology is believed to have saved the lives of millions of soldiers.
What were the long-term health effects of Marie Curie’s exposure to radiation?
-Marie Curie’s prolonged exposure to radiation, while conducting her research, ultimately led to her death from aplastic anemia in 1934. At the time, the harmful effects of radiation were not well understood, and Curie had no protective measures when working with radioactive materials.