Who was Marie Curie? This game will help children learn key facts about the Polish-born and French naturalized scientist, Marie Curie. She is widely known for her pioneering work on radioactivity, which changed how we viewed energy. Play this game to learn more about a woman who broke many barriers in the field of physics.
Marie Curie Facts
If you've ever wondered about the life of Marie Curie, you might be wondering who she was and what she did. While she did win the Nobel Prize for her work on radiation, and her family did not participate in any independent movements, there are a few facts about Marie Curie that you should know. In addition to Her work on radiation, you'll find out about her other Nobel Prizes and contributions to cancer treatments.
You've probably heard of Marie Curie, but you might not know a lot about her life or achievements. Curie was born to modest parents in Warsaw, Poland, and later decided to become a scientist. In 1878, she lost her mother to tuberculosis. Because of her unhappiness, she decided to leave her home and study in Paris, where she met and married her future husband, Pierre Curie. She studied physics, math, and chemistry at the Sorbonne.
Though the Curies were not religious, they had little family involvement with the independence movement. They were not allowed to attend official colleges, so they were forced to go underground. They eventually joined the Flying University, a secret university that accepted women. Despite their unorthodox lifestyle, they were still able to study science and earn a doctorate. Their efforts helped lay the groundwork for atom science. Today, you can learn more about Marie Curie by reading some Marie Curie Facts.
Her work on radiation
The connection between Marie Curie and radiation is a complex one. Although she was born in Poland, Curie studied in France. At the School of Physics, she met her future husband Pierre, and they were married in 1897. They worked in a "shack" together in order to study the nature of radiation. They discovered two types of radium: polonium (Po) and radium, or Ra. She also discovered that both elements were chemically related, and both humans have the same amount of Radium in their bodies.
In 1911, Marie Curie won the Nobel Prize in Chemistry for her research into radioactivity. She traveled to Sweden with her husband and two daughters to accept her award. During this time, she was unable to accept the Nobel Prize, as she was suffering from radiation sickness, which later came to be recognized as a form of illness. This was due to the fact that she was exposed to radiation when handling radioactive materials, a common mistake at the time. In the early 1900s, scientists were unaware of the dangers of radioactivity.
Her Nobel Prizes
In 1911, Marie Curie was awarded the Nobel Prize for chemistry, which she shared with her husband. The award reflected her work in discovering radioactive elements such as polonium and radium and developing techniques for isolating them. Today, those discoveries are still credited to her. Here are some of the scientists who influenced her work.
Marie Curie's Nobel Prizes:
-Marie Sklodowska Curie was a Polish-French chemist and physicist who discovered radium and polonium. Her work on these elements is the inspiration behind the work of the Marie Curie charity. This charity aims to help those facing a terminal illness by providing expert care and research to advance their condition. Marie Curie was born on 7 November 1867 in Warsaw, Poland. She married her husband, Pierre, in 1895. The two established a joint laboratory in their Paris flat and built their own equipment. Their experiments were dangerous, as no one understood the effects of radioactivity at the time. However, they didn't give up and continued working despite the dangers, and soon, their work was rewarded with the first Nobel Prize in Physics.
Her contributions to finding treatments for cancer
In 1911, Marie Curie was awarded the Nobel Prize in chemistry for discovering radium and polonium. For her discoveries, she coined the term "radio-active." She also won the prize twice. A shy scientist, Curie spent most of her time in a laboratory in Paris. In the following years, she would continue to make contributions to the science of chemistry.
After the discovery of radium, she became an international celebrity and advocate for its medicinal uses. During her lifetime, the dangers of radioactivity took much longer to manifest than were its perceived values. Sadly, she died of a rare form of anemia, which she attributed to too much exposure to radiation in her laboratory. While she won the Nobel Prize in 1931, her legacy lives on as one of the most important figures in the history of medicine.