As a great man, Madame Curie enjoyed a high reputation when she was alive. However, just like her indifferent heart, no matter what time in life, her enjoyment of material life is also very indifferent, and life can be said to be very simple.
1895 When Madame Curie and pierre curie got married, there were only two chairs in the new house, one for each person. This shows how humble their home is. Madame Curie never wanted to change this simplicity.
Later, even though Madame Curie's annual salary had increased to 40,000 francs, she was still not "generous". Every time she comes back from abroad, she always brings back some party menus, because these menus are very thick and good pieces of paper, which are convenient to write on the back. So some people say that Madame Curie was "like a poor woman in a hurry" until her death. This kind of practice, in our view today, may be difficult to imagine and understand, but it just proves how simple Madame Curie is, even to the point of what we call "digging a hole" today.
Faced with such a simple Madame Curie, can you imagine what she was dressed like? Once, an American journalist went to visit Madame Curie. He went to the door of a fisherman's house in the village and asked a woman sitting barefoot on the slate in front of the house about Madame Curie's residence. But to the reporter's surprise, this woman is Madame Curie. From this point of view, Madame Curie is really different. Maybe she is informal. We can feel that she doesn't pay attention to gorgeous appearance at all In her mind, only her experiments, only her research. Perhaps, people who love science to the extreme are like this. You know, Einstein is said to wear shoes from socks. In his opinion, it is really unnecessary to wear shoes and socks.
Nowadays, more and more people lose themselves in their obsession with money, blindly pursue material enjoyment and live in luxury. Even the life of many rich people can be said to be extremely luxurious. Diligence and thrift have always been the traditional virtues of the Chinese nation, but once upon a time, we were also lost.
Yes, we should learn from Madame Curie, regain virtue and live a simple life instead of dying in ecstasy.
⑵ Some thoughts on the story of 100 Luban scientist.
When I finished reading this book, I couldn't help admiring the scientists' love and dedication to science. From hard-working Lu Ban to China's first astronaut Wang Ganjun, there is no one among more than 65,438,000 scientists who failed without hard research.
This reminds me that when I encounter difficulties and troubles in my study and life, I will give up after several unsuccessful efforts. Compared with scientists, I feel ashamed! How diligent these scientists are and cherish time like gold; How brave scientists are to face difficulties; How humble scientists are and never satisfied; How diligent and tireless scientists are; How determined are scholars to defend the truth ...
I know that not everyone who works hard can become a scientist, but those who don't work hard have no hope. The spirit of scientists is worth learning!
(3) The story about reading scientists is about 70 words.
Thoughts on reading Zhan Tianyou
That day, I read the article Zhan Tianyou with relish. This article tells how the Beijing-Zhangjiakou Railway, which was built by Zhan Tianyou, was built. It can be seen that Zhan Tianyou is an outstanding patriotic engineer. What a deep impression this text left on me! Take Zhan Tianyou as an example in real life! For example, some people always think they are smart and great, playing all day and not focusing on their studies or work. Those diligent people are not as smart as smart people, but as long as they have a strong will and keep working hard, they will certainly catch up with smart people. Isn't there a saying that "cleverness lies in diligence" We should practice more, pay more attention to the things around us, and be conscientious in life. Then we will be as innovative as Zhan Tianyou!
Zhan Tianyou, I want to follow your example. I want to be patriotic like you, make contributions to the motherland, have the spirit of being brave in practice and innovation, and be meticulous in doing things. I'm proud to have an engineer like Zhan Tianyou in China!
(4) How do you feel after reading the story of primary school science knowledge?
When I opened the first page of The Story of Scientific Knowledge, it attracted me.
This is a book composed of many interesting short stories. This book tells us with examples: in fact, science is everywhere in life. As long as you learn to use these scientific methods, your life will become more colorful. Every time I read this book, I seem to have entered another world, and each story has its own unique scene. Sometimes, it will remind us that nothing in life can be sloppy. For example,
Reading Notes of Gourmet Travel By studying Gourmet Travel, I got a preliminary understanding of how food travels, basically as follows:
1. In the mouth, food is preliminarily decomposed into maltose by salivary enzymes and crushed.
Then it reaches the stomach, where it digests some water and alcohol. ...
Reflections on Flying South in the Wilderness
Scientific principle: Goose is a migratory bird. Every autumn, geese fly to warm places in the south for the winter. The following spring, these geese will fly back to the food-rich north to breed.
5. After reading: "Thoughts on Reading Scientists' Stories" is more than 400 words. Hurry up, don't repeat it, hurry up! ! ! ! ! !
I read the book The Story of a Scientist, which deeply touched me.
This book mainly tells the story of the growth of scientists, mainly introducing Newton, Ai En Stein, Darwin, Bian Que and so on. They have loved reading since childhood, which is why they have achieved so much. Moreover, many of these scientists grew up in poverty, but their achievements are among the best. From this, I thought of myself. I study in such a good environment, but I am not as good as them. What a pity!
Among these people, Newton impressed me the most. Newton was a great scientist in17th century and a symbol of modern science. His laws of gravity, three laws of mechanics and his research on optics, mathematics and chemistry have laid a solid foundation for scientific development for more than two centuries. I learned many examples of Newton's contribution to the development of science and technology in the world from the book, and I also knew Newton's character. At first, I was very surprised I'm surprised that Newton retaliated against Hook, a scientist with both hands-on ability and creative ability. I can't believe that Newton, a talented scientist, a scientist I admire, has such a big shortcoming. It's incredible! Mom said, "One can't be perfect. There are always advantages and disadvantages. As long as he exerts his own advantages and corrects his own shortcomings, he will still succeed. "
I could hardly believe my eyes when I read the story of Newton's childhood. He was a poor student when he was a child. Later, through his hard work, he became one of the best students in his class and eventually became a famous scientist. It seems that whoever works hard can become a successful person as long as he studies hard and does everything well.
In fact, every scientist's success comes from hard work, so we should learn from their fighting spirit. Now, I really understand Edison's words: Genius is one percent inspiration and ninety-nine percent perspiration. So cherish the wonderful childhood, study hard and study hard. When we grow up, we don't want to be a celebrity, but we want to be a useful person to our country.
[6] Read the story of a scientist in no more than 400 words and no more than 300 words.
The story of scientists
Every scientist fails sometimes. Now, I will look at the story of scientists.
Story 1:
Boyle's skeptical chemist
Boyle was born in an aristocratic family in Ireland on1October 25th. My father is an earl and his family is very rich. He is the youngest of the fourteen brothers. Boyle was not particularly smart when he was a child, and he stuttered a little. He doesn't like lively games very much, but he is studious and likes reading and thinking quietly. Received a good education since childhood, and studied in Europe from 1639 to 1644. During this period, he read many natural science books, including the famous book Dialogue between Two World Systems by astronomer and physicist Galileo. This book left a deep impression on him. His later masterpiece The Doubtful Chemist was based on this book.
Due to the war, his father died and his family came down. He returned to China to live in London with his sister in 1644. I started studying medicine and agriculture there. I came into contact with a lot of chemical knowledge and experiments in my study, and soon became a well-trained chemical experimenter and creative theorist. During this period, he organized a scientific society with many scholars and held a weekly seminar, mainly discussing the latest development of natural science and the problems encountered in the laboratory. Boyle called this organization an "invisible university". This society is the predecessor of the famous "Royal Society", and its purpose is to promote the development of natural science. Boyle is an important member of the association. Boyle moved to Oxford on 1654 because the branch of the society was located in Oxford. In Oxford, he set up a well-equipped laboratory and hired some talented scholars as assistants to lead them in various scientific research. Many of his scientific research achievements were obtained here. The epoch-making masterpiece "Skeptical Chemist" is written here. In the genre of dialogue, this book writes four philosophers arguing together. They are skeptical chemists, bardic chemists, medical chemists and philosophers. Bard chemists represent Aristotle's view of "four elements", medical chemists represent the view of "three elements", and philosophers remain neutral in the debate. Here, skeptical chemists have no fear to challenge all kinds of authoritative traditional theories in history, refuting many old ideas with vivid and powerful arguments and putting forward new ones. This book is widely circulated in continental Europe.
Boyle attaches great importance to experimental research. He believes that only experiment and observation are the basis of scientific thinking. He always clarifies his views through rigorous and scientific experiments. In physics, he studied the color of light, the elasticity of vacuum and air, and summarized Boyle's gas law. In chemistry, his research on acid, alkali and indicator, and his discussion on the qualitative test method of salt are quite effective. He was the first chemist to use the juices of various natural plants as indicators. He invented litmus test solution and litmus test paper. He was also the first chemist to give a clear definition of acid and alkali, and divided substances into three categories: acid, alkali and salt. He created many qualitative methods to test salt, such as using copper salt solution to be blue, adding ammonia solution to become dark blue (copper ions and enough ammonia water form copper-ammonia complex ions) to test copper salt; The white precipitate produced by mixing hydrochloric acid and silver nitrate solution is used to test silver salt and hydrochloric acid. Boyle's invention is full of long-term vitality, so that we still often use these oldest methods today. Boyle has also done many experiments in determining the composition and purity of substances, and studying the similarities and differences of substances. A brief review of the history of mineral water experimental research published by 1685 describes a set of methods to identify substances and becomes a pioneer in qualitative analysis.
1668, due to the death of his brother-in-law, he moved to London to live with his sister, and set up a laboratory in his backyard to continue his experimental work. Boyle's work in his later years mainly focused on the study of phosphorus. 1670, Boyle suffered a stroke due to fatigue, and his physical condition was good and bad. When he can't do research in the laboratory, he devotes himself to sorting out the knowledge gained from practice and reasoning for many years. As long as he feels a little light, he goes to the laboratory to do his experiments or write papers for fun. 1680, he was elected president of the royal society, but he refused to accept this honor. Although he was born into a noble family, he devoted his life to scientific research and life. He never married and devoted his life to exploring natural science. 169 165438 On February 30th, the scientist who laid the foundation of chemical science in17th century died in London. Engels once gave him the highest evaluation: "Boyle identified chemistry as science."
The experience after reading the stories of scientists.
Mystery of golden crown
King Hennon asked the goldsmith to make a pure gold crown for him. After it was done, the king suspected that the craftsman had mixed silver into the crown, but the crown was as heavy as the pure gold given to the goldsmith at the beginning. Did the craftsman play tricks? The problem of trying to test the authenticity without destroying the crown not only stumped the king, but also made the ministers look at each other. Later, the king gave it to Archimedes. Archimedes thought hard about many methods, but all failed. One day, he went to the bathhouse to take a bath. Sitting in the bathtub, he saw the water overflowing and felt his body being gently pulled up. He suddenly realized that he jumped out of the bathtub and went straight to the palace without clothes on. He shouted "Eureka" and "Frica" all the way. It turns out that if the crown is put into water, the amount of water discharged is not equal to the same weight of gold, and it must be mixed with other metals. This is the famous law of buoyancy, that is, an object immersed in a liquid is subjected to upward buoyancy, and its size is equal to the weight of the liquid discharged by the object. Later, this law was named Archimedes principle. Feel the real scientist, not only in one field, but in different fields, who can exert extraordinary wisdom and create extraordinary achievements.
After reading the science story, talk about the scientific spirit.
Scientific spirit:
Scientific spirit is the general name of common beliefs, price standards and behavior norms formed by people in long-term scientific practice. Scientific spirit refers to the basic mental state and mode of thinking that is determined by the nature of science and runs through scientific activities. It is an idea or thought embodied in scientific knowledge. On the one hand, it restricts the behavior of scientists and ensures their success in the field of science; On the other hand, it has gradually penetrated into the deep consciousness of the public. It is the spirit of persistence, not afraid of difficulties, hard work and innovation.
On the Short Stories of Great Scientists
Scientists are very selfless in scientific research, and we should also have this spirit in our study!
⑽ Reading 100 Scientists' Stories
Reflections on 100 stories of scientists
I read a book that day called "The Story of a Scientist 100". This special book tells about many famous scientists.
My favorite is Aristotle.
And luban. Aristotle. Euclid, Archimedes. Zhang Heng. Hua Tuo, Zu Chongzhi and other celebrities. Now tell the story of Aristotle. He said, "No animal has tusks and horns at the same time." "Ruminants have multiple stomachs, but their teeth are very bad." "Long-haired quadrupeds are viviparous; There are also hard-toed quadrupeds that lay eggs. " wait for ...
Aristotle had observed the development process of eggs when they hatched chicks in detail: "The heart is like a piece of red blood in the middle of protein. The little red one is jumping, and then two blood-filled blood vessels are stretched out in a vortex. There is also a thin skin bag covered with blood vessels around the egg yolk. Although the hind limbs are stretched out, they are small and white at first. " How rare and precious it is to have such a detailed and true record 2300 years ago!
Let's talk about Lu Ban again: When I was a child, Lu Ban carved a phoenix, but it turned out to be like a chicken, which was not good-looking at all. People laughed at him for turning the phoenix into a chicken. Later, Luban continued to study sculpture and his craftsmanship continued to improve. Finally, he carved a beautiful phoenix and was praised by people.
These stories tell us that genius is 1% inspiration and 99% sweat. We should be patient, we should not always give up halfway, we should not shrink from difficulties, but we should face them. Genius comes from diligence!