Mining route of Fenglong ruins
Publish: 2021-04-30 13:31:23
1. Youfu coin is a new type of digital currency, which is based on the Internet, stored in the computer system in the form of electronic data, and realizes the circulation and payment function in the form of electronic information transmission through the network system. Its purpose is to explore a new payment currency in the process of social and economic development in the future. It envisages that it will become a universal electronic payment means in the world to compete with bitcoin in the future. The mode of issuing and subscribing is adopted for the acquisition of Youfu coin, which is not the same mining mode as bitcoin, lightcoin and other digital currencies. The total number of Youfu coins is 105 million, and its issuing institution does not belong to the central bank. Instead, it is proced by Fujian Juhui Network Technology Co., Ltd. through the mine pool, and then it is issued by stages, and the user subscribes for it.
2. Network know this cash, generally refers to the network know live distribution of cash, can withdraw cash. As long as you grab the red envelope and share it, you can withdraw cash. The withdrawal must be 1 yuan, 10 yuan, 100 yuan, etc. the withdrawal can be typed into wechat.
3.
1. First, go to the main page of Yuanshen game, as shown in the figure below:
4.
1. According to the game tips, I come to the top of qingce village and find that there is a mechanism in the center that can be touched, as shown in the figure
5.
The ruins of the wind dragon are in the upper left corner of the map. The steps are as follows:
1. Enter the game and click the map in the upper left corner
6.
The wind dragon ruins can only enter after unlocking according to the plot. The unlocking method is as follows:
1. First, enter the game main page of the original God, as shown in the figure below:
7. 1. First of all, just enter the of the ruins of the wind dragon. Use Wendy to shoot at the purple aperture. When there is still more than half of the blood left, the wind dragon will open a distance with you
2. Apart from the distance, the wind demon dragon will throw something to avoid, and then something with a progress bar will appear as shown in the figure below to fight against it
3. When there is no progress bar, an aperture will be formed, and the mobile player will press the lower left corner to control the character to move through the aperture
4. After a total of five apertures, you can play the purple circle on the neck of the Dragon again
5. When it hits its resial blood, it will open a distance again, continue to pass through five apertures, and hit the neck
finally, there will be a wound left, and the wind demon dragon boss will appear
playing skills:
1. Noel opens the shield, Lisa kicks, Xiangling throws the pot, then Lisa electrotherapy
2. Pay attention to the wind field, avoid it, change the platform when you scald your feet, and chop him when he lands. The bowing character doesn't hurt much
3. When the task prompts you to hit the resial blood on its neck, don't shoot it with Wendy, just climb up to it and chop it with Lazer or Noel
4. It's suggested that you take some blood medicine, and then xiantiaowei to increase critical hit. Xiantiaowei has a great effect in the early stage
the general process of inquiry begins with finding and asking questions. After finding the questions, make hypotheses about the answers to the questions according to your existing knowledge and life experience. Design the scheme of inquiry, including the selection of materials, design methods and steps, etc. according to the scheme of inquiry, get the results, and then analyze whether the results are consistent with the hypotheses, Therefore, after drawing a conclusion, we need to reflect on the whole process of inquiry. The general methods and steps of inquiry experiment are as follows: putting forward problems, making assumptions, making plans, implementing plans, drawing conclusions, and so on Expression and communication.
the common methods of scientific inquiry include observation, experiment, investigation and data analysis.
observation is a basic method of scientific inquiry. Scientific observation can be done directly with the naked eye, with the help of magnifying glass, microscope and other instruments, or with the help of cameras, video recorders, cameras and other tools, Sometimes measurement is needed; The observation should be comprehensive, meticulous, realistic and recorded in time; Plan and be patient; We should think positively and record in time; The design of the experimental scheme should be closely around the questions and hypotheses put forward. When studying the influence of a condition on the research object, the experiment with the same conditions except for the different conditions is called control experiment; Collect information related to the problem; Making assumptions; The experimental scheme was designed; Carry out the experiment and record it; Analysis of experimental phenomena; In the process of investigation, sometimes because the scope of investigation is very large, it is necessary to select a part of the respondents as samples. In the process of investigation, it is necessary to record truthfully. The results of the investigation should be sorted out and analyzed, Sometimes it is necessary to use mathematical methods for statistics. Collecting and analyzing data is also one of the common methods of scientific inquiry. There are many ways to collect data. Go to the library to consult books and newspapers, visit relevant people, and get online. The forms of data include text, pictures, data, audio-visual materials, etc, Find answers and explore clues from them
2. Apart from the distance, the wind demon dragon will throw something to avoid, and then something with a progress bar will appear as shown in the figure below to fight against it
3. When there is no progress bar, an aperture will be formed, and the mobile player will press the lower left corner to control the character to move through the aperture
4. After a total of five apertures, you can play the purple circle on the neck of the Dragon again
5. When it hits its resial blood, it will open a distance again, continue to pass through five apertures, and hit the neck
finally, there will be a wound left, and the wind demon dragon boss will appear
playing skills:
1. Noel opens the shield, Lisa kicks, Xiangling throws the pot, then Lisa electrotherapy
2. Pay attention to the wind field, avoid it, change the platform when you scald your feet, and chop him when he lands. The bowing character doesn't hurt much
3. When the task prompts you to hit the resial blood on its neck, don't shoot it with Wendy, just climb up to it and chop it with Lazer or Noel
4. It's suggested that you take some blood medicine, and then xiantiaowei to increase critical hit. Xiantiaowei has a great effect in the early stage
the general process of inquiry begins with finding and asking questions. After finding the questions, make hypotheses about the answers to the questions according to your existing knowledge and life experience. Design the scheme of inquiry, including the selection of materials, design methods and steps, etc. according to the scheme of inquiry, get the results, and then analyze whether the results are consistent with the hypotheses, Therefore, after drawing a conclusion, we need to reflect on the whole process of inquiry. The general methods and steps of inquiry experiment are as follows: putting forward problems, making assumptions, making plans, implementing plans, drawing conclusions, and so on Expression and communication.
the common methods of scientific inquiry include observation, experiment, investigation and data analysis.
observation is a basic method of scientific inquiry. Scientific observation can be done directly with the naked eye, with the help of magnifying glass, microscope and other instruments, or with the help of cameras, video recorders, cameras and other tools, Sometimes measurement is needed; The observation should be comprehensive, meticulous, realistic and recorded in time; Plan and be patient; We should think positively and record in time; The design of the experimental scheme should be closely around the questions and hypotheses put forward. When studying the influence of a condition on the research object, the experiment with the same conditions except for the different conditions is called control experiment; Collect information related to the problem; Making assumptions; The experimental scheme was designed; Carry out the experiment and record it; Analysis of experimental phenomena; In the process of investigation, sometimes because the scope of investigation is very large, it is necessary to select a part of the respondents as samples. In the process of investigation, it is necessary to record truthfully. The results of the investigation should be sorted out and analyzed, Sometimes it is necessary to use mathematical methods for statistics. Collecting and analyzing data is also one of the common methods of scientific inquiry. There are many ways to collect data. Go to the library to consult books and newspapers, visit relevant people, and get online. The forms of data include text, pictures, data, audio-visual materials, etc, Find answers and explore clues from them
8.
1. Enter the game and click the map in the upper left corner
9.
This requires players to finish the main line before they can go. Players need to reach the level 18 main line plot before they can successfully unlock the map, and then they can smoothly come to the ruins of the wind dragon
in the early stage of the map, players can't enter, so they still need to upgrade patiently. In fact, the upgrade speed of the game is relatively fast, and it takes about two or three days to reach this level. There are abundant resources in this wind Dragon ruins. If players unlock it, they must not miss the contents of the treasure box
{rrrrrrr}
extended data :
the location of wind god pupil in Fenglong ruins
Fenglong ruins 1, top of Fenglong pagoda
Fenglong ruins 2, on the guard head of lower ruins in the second area
Fenglong ruins 3, upper left air of middle anchor point of Fenglong pagoda
Fenglong ruins 4, gap under cliff left of middle anchor point of Fenglong pagoda
Fenglong ruins 5, upper right Lake
On the high platform above the right anchor of Fenglong ruins 6
in front of the upper left platform of Fenglong ruins 7
in the upper right column of Fenglong ruins 8 (you can only fly down from the top of the mountain and climb up from the right side)
10. The story of scientists
every scientist has his failure side. Now, let me take a look at the story of scientists.
Story 1:
Boyle, a skeptical chemist, was born in a noble family in Ireland on January 25, 1627. His father was a count and his family was rich. He is the youngest of fourteen brothers. Boyle was not very smart when he was a child. He stuttered and didn't like lively games, but he was very studious and liked to read and think quietly. From 1639 to 1644, he traveled to Europe. During this period, he read a lot of natural science books, including the famous book dialogue about two world systems by Galileo, an astronomer and physicist. The book left a deep impression on him. His later famous work skeptic chemist imitated this book
e to the chaos of war, the death of his father and the decline of his family, he returned to live in London with his sister in 1644. He began to study medicine and agriculture there. He came into contact with a lot of chemical knowledge and experiments, and soon became a well-trained chemical experimenter and a creative theorist. During this period, he, together with many scholars, organized a scientific society to hold weekly seminars, mainly discussing the latest development of natural science and the problems encountered in the laboratory. Boyle called the organization "invisible University.". This society is the predecessor of the famous "Royal Society" whose purpose is to promote the development of natural science. Boyle is an important member of the society. As the branch of the society was located in Oxford, Boyle moved to Oxford in 1654. In Oxford, he established a well-equipped laboratory and employed some talented scholars as assistants to lead them in various scientific researches. Many of his scientific research achievements were made here. The epochal masterpiece skeptic chemist was completed here. This book is written in the form of dialogue. Four philosophers argue together. They are skeptic chemist, carefree chemist, medical chemist and philosopher. The Xiaoyao school chemists represent Aristotle's "four elements theory", the medical chemists represent the "three elements theory", and the philosophers remain neutral in the debate. Here, the skeptical chemists bravely challenged various authoritative traditional theories in history, refuted many old ideas and put forward new ideas with bright and powerful argumentation. The book was widely circulated in Europe
Boyle attaches great importance to experimental research. He believes that only experiment and observation are the basis of scientific thinking. He always makes his point through rigorous and scientific experiments. In physics, he studied the color of light, the elasticity of vacuum and air, and summarized Boyle's law of gas; In chemistry, his research on acids, bases and indicators, and his discussion on the methods of qualitative analysis of salts are quite effective. He was the first chemist to use the juice of various natural plants as an indicator. He invented litmus test solution and litmus test paper. He was also the first chemist to clearly define acids and bases and to classify substances into acids, bases and salts. He created a lot of qualitative methods to test salts, such as using the copper salt solution is blue, adding ammonia solution to become dark blue (copper ion and enough ammonia to form copper ammonia complex ion) to test copper salt; Silver salt and hydrochloric acid can be tested by white precipitate proced by mixing hydrochloric acid and silver nitrate solution. Boyle's inventions are so long-lasting that we often use these oldest methods today. Boyle has also done a lot of experiments on the determination of composition and purity, similarity and difference of substances. In 1685, a brief review of the history of experimental research on mineral water described a set of methods for identifying substances and became a pioneer in qualitative analysis< In 1668, e 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. In 1670, Boyle suffered from a stroke e to fatigue, and his health changed from good to bad. When he was unable to carry out research in the laboratory, he devoted himself to sorting out the knowledge he gained from practice and reasoning for many years. As long as the body feels light, go to the laboratory to do his experiments or write papers, and take it as fun. In 1680, he was elected president of the Royal Society, but he declined to accept the honor. Although he was born into a noble family, he devoted all his life to working and living in scientific research. He never married and devoted all his life to the exploration of natural science. On December 30, 1691, the scientist who laid the foundation for Chemical Science in the 17th century died in London. Engels once made the most lofty evaluation of him: "Boyle identified chemistry as science."<
Story 2:
Priestley, the father of gas chemistry, was born in Leeds, England on March 13, 1733. He was raised by relatives because of his poor family. He entered the seminary in 175. After graation, he spent most of his time as a priest, and chemistry was his hobby. He has many works in chemistry, electricity, natural philosophy, theology and so on. He wrote many theological works which he thought he was proud of, but what made him famous forever was his scientific works. In 1764, at the age of 31, he wrote a history of electricity. It was a very famous book at that time. Because of its publication, he was elected a member of the Royal Society in 1766< In 1722, when he was 39 years old, he wrote a history of optics. It is also a famous book in the late 18th century. At that time, he worked as a pastor in Leeds and began to engage in chemical research. His research on gases is fruitful. He used the hydrogen to study the effect of the gas on various metal oxides. In the same year, Priestley also burned charcoal in a closed container, and found that one fifth of the air could be turned into carbonic acid gas. After being absorbed with lime water, the remaining gas would not support combustion or respiration. Because he believed in phlogiston, he called the remaining gas "air saturated with phlogiston". Obviously, he used charcoal combustion and alkali absorption to remove oxygen and carbonic acid from the air and proce nitrogen. In addition, he discovered nitrogen oxide (no) and used it in the analysis of air. Hydrogen chloride, ammonia, sulfite gas (carbon dioxide), nitrous oxide, oxygen and other gases were also found or studied. In 1766, his three volume book experiment and observation of several gases was published. The book details the preparation or properties of various gases. Because of his outstanding achievements in gas research, he is known as "the father of gas chemistry"
in the study of gases, the most important thing is the discovery of oxygen. In 1774, Priestley put mercury soot (mercury oxide) in a glass dish and heated it with a condenser. He found that it quickly decomposed into gas. He thought that what he released was air, so he used the gas gathering method to collect the gas proced, and carried out research. He found that the gas made the candle burn more vigorously, and he felt very relaxed and comfortable breathing it. He made oxygen and proved by experiments that oxygen has the properties of combustion and respiration. However, because he is a stubborn believer of phlogiston theory, he still thinks that air is a single gas, so he also calls this gas "de phlogiston air". Its property is different from that of "air saturated with phlogiston" (nitrogen) found earlier, only because of the different content of phlogiston, so its combustion supporting ability is different. In the same year, he visited Europe, exchanged views on chemistry with lavassier in Paris, and told lavassier about the experiment of decomposing mercury and Silver Ash with a condenser, which benefited lavassier a lot. Lavoisier just repeated Priestley's experiment on oxygen, and connected it with a large number of accurate experimental materials, made scientific analysis and judgment, and revealed the real connection between combustion and air. However, until 1783, when Lavoisier's theory of combustion and oxidation was generally regarded as correct, Priestley still refused to accept his explanation, insisted on the wrong phlogiston theory, and wrote many articles against Lavoisier's view. This is an interesting fact in the history of chemistry. A person who discovers oxygen becomes a person who opposes the theory of oxidation. However, the discovery of oxygen by Priestley was an important factor in the development of chemistry. So chemists all over the world still respect Priestley< In 1791, because he sympathized with the French Revolution, he made several propaganda speeches for the revolution, but he was persecuted by some people, his home was copied, and his books and experimental equipment were set on fire. He escaped alone and took refuge in London, but it was difficult for him to live in London for a long time. In 1794, at the age of 61, he had to move to the United States. Continue to engage in scientific research in the United States. He died in 1804. The people of the United Kingdom and the United States respect him very much, and there are statues of him in Britain. In the United States, the house where he lived has been built into a memorial, and the Priestley medal named after him has become the highest honor in the American chemical instry
Story 3:
Madame Curie
Marie Curie (Madame Curie) is a French Polish physicist and chemist< In 1898, French physicist Antoine Henri Becquerel discovered that uranium bearing minerals can emit a mysterious ray, but he failed to reveal the mystery of this ray. Mary and her husband, Pierre Curie, worked together on the radiation. Under extremely difficult conditions, they separated and analyzed pitchblende, and finally found two new elements in July and December 1898
in memory of her motherland Poland, she named one element polonium and the other radium, which means "radioactive substance". In order to prepare pure radium compound, Marie cui7e (1867-1934) spent four years to extract 10 mg radium chloride from tons of pitchblende slag, and the relative atomic mass of radium was 225. This simple figure embodies the painstaking efforts and sweat of the Curies< In June 1903, Madame Curie received her doctor's degree in physics from the University of Paris with her doctoral dissertation in the study of radioactive substances. In November of the same year, the Curies were awarded the David gold medal by the Royal Society. In December, they won the 1903 Nobel Prize in physics with becoller< In 1906, Pierre Curie died in a car accident. This heavy blow did not make her give up her persistent pursuit. She enred her grief and redoubled her efforts to complete their beloved scientific cause. She continued her husband's lecture at the University of Paris and became the first female professor of the University. In 1910, her famous book on radioactivity was published. With Mou, she worked with others to analyze pure metal radium and determine its properties. She also measured the half lives of oxygen and other elements and published a series of important works on radioactivity. In view of the above achievements, she won the Nobel Prize in chemistry in 1911 and became the first great scientist to win the Nobel Prize twice in history< br />
every scientist has his failure side. Now, let me take a look at the story of scientists.
Story 1:
Boyle, a skeptical chemist, was born in a noble family in Ireland on January 25, 1627. His father was a count and his family was rich. He is the youngest of fourteen brothers. Boyle was not very smart when he was a child. He stuttered and didn't like lively games, but he was very studious and liked to read and think quietly. From 1639 to 1644, he traveled to Europe. During this period, he read a lot of natural science books, including the famous book dialogue about two world systems by Galileo, an astronomer and physicist. The book left a deep impression on him. His later famous work skeptic chemist imitated this book
e to the chaos of war, the death of his father and the decline of his family, he returned to live in London with his sister in 1644. He began to study medicine and agriculture there. He came into contact with a lot of chemical knowledge and experiments, and soon became a well-trained chemical experimenter and a creative theorist. During this period, he, together with many scholars, organized a scientific society to hold weekly seminars, mainly discussing the latest development of natural science and the problems encountered in the laboratory. Boyle called the organization "invisible University.". This society is the predecessor of the famous "Royal Society" whose purpose is to promote the development of natural science. Boyle is an important member of the society. As the branch of the society was located in Oxford, Boyle moved to Oxford in 1654. In Oxford, he established a well-equipped laboratory and employed some talented scholars as assistants to lead them in various scientific researches. Many of his scientific research achievements were made here. The epochal masterpiece skeptic chemist was completed here. This book is written in the form of dialogue. Four philosophers argue together. They are skeptic chemist, carefree chemist, medical chemist and philosopher. The Xiaoyao school chemists represent Aristotle's "four elements theory", the medical chemists represent the "three elements theory", and the philosophers remain neutral in the debate. Here, the skeptical chemists bravely challenged various authoritative traditional theories in history, refuted many old ideas and put forward new ideas with bright and powerful argumentation. The book was widely circulated in Europe
Boyle attaches great importance to experimental research. He believes that only experiment and observation are the basis of scientific thinking. He always makes his point through rigorous and scientific experiments. In physics, he studied the color of light, the elasticity of vacuum and air, and summarized Boyle's law of gas; In chemistry, his research on acids, bases and indicators, and his discussion on the methods of qualitative analysis of salts are quite effective. He was the first chemist to use the juice of various natural plants as an indicator. He invented litmus test solution and litmus test paper. He was also the first chemist to clearly define acids and bases and to classify substances into acids, bases and salts. He created a lot of qualitative methods to test salts, such as using the copper salt solution is blue, adding ammonia solution to become dark blue (copper ion and enough ammonia to form copper ammonia complex ion) to test copper salt; Silver salt and hydrochloric acid can be tested by white precipitate proced by mixing hydrochloric acid and silver nitrate solution. Boyle's inventions are so long-lasting that we often use these oldest methods today. Boyle has also done a lot of experiments on the determination of composition and purity, similarity and difference of substances. In 1685, a brief review of the history of experimental research on mineral water described a set of methods for identifying substances and became a pioneer in qualitative analysis< In 1668, e 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. In 1670, Boyle suffered from a stroke e to fatigue, and his health changed from good to bad. When he was unable to carry out research in the laboratory, he devoted himself to sorting out the knowledge he gained from practice and reasoning for many years. As long as the body feels light, go to the laboratory to do his experiments or write papers, and take it as fun. In 1680, he was elected president of the Royal Society, but he declined to accept the honor. Although he was born into a noble family, he devoted all his life to working and living in scientific research. He never married and devoted all his life to the exploration of natural science. On December 30, 1691, the scientist who laid the foundation for Chemical Science in the 17th century died in London. Engels once made the most lofty evaluation of him: "Boyle identified chemistry as science."<
Story 2:
Priestley, the father of gas chemistry, was born in Leeds, England on March 13, 1733. He was raised by relatives because of his poor family. He entered the seminary in 175. After graation, he spent most of his time as a priest, and chemistry was his hobby. He has many works in chemistry, electricity, natural philosophy, theology and so on. He wrote many theological works which he thought he was proud of, but what made him famous forever was his scientific works. In 1764, at the age of 31, he wrote a history of electricity. It was a very famous book at that time. Because of its publication, he was elected a member of the Royal Society in 1766< In 1722, when he was 39 years old, he wrote a history of optics. It is also a famous book in the late 18th century. At that time, he worked as a pastor in Leeds and began to engage in chemical research. His research on gases is fruitful. He used the hydrogen to study the effect of the gas on various metal oxides. In the same year, Priestley also burned charcoal in a closed container, and found that one fifth of the air could be turned into carbonic acid gas. After being absorbed with lime water, the remaining gas would not support combustion or respiration. Because he believed in phlogiston, he called the remaining gas "air saturated with phlogiston". Obviously, he used charcoal combustion and alkali absorption to remove oxygen and carbonic acid from the air and proce nitrogen. In addition, he discovered nitrogen oxide (no) and used it in the analysis of air. Hydrogen chloride, ammonia, sulfite gas (carbon dioxide), nitrous oxide, oxygen and other gases were also found or studied. In 1766, his three volume book experiment and observation of several gases was published. The book details the preparation or properties of various gases. Because of his outstanding achievements in gas research, he is known as "the father of gas chemistry"
in the study of gases, the most important thing is the discovery of oxygen. In 1774, Priestley put mercury soot (mercury oxide) in a glass dish and heated it with a condenser. He found that it quickly decomposed into gas. He thought that what he released was air, so he used the gas gathering method to collect the gas proced, and carried out research. He found that the gas made the candle burn more vigorously, and he felt very relaxed and comfortable breathing it. He made oxygen and proved by experiments that oxygen has the properties of combustion and respiration. However, because he is a stubborn believer of phlogiston theory, he still thinks that air is a single gas, so he also calls this gas "de phlogiston air". Its property is different from that of "air saturated with phlogiston" (nitrogen) found earlier, only because of the different content of phlogiston, so its combustion supporting ability is different. In the same year, he visited Europe, exchanged views on chemistry with lavassier in Paris, and told lavassier about the experiment of decomposing mercury and Silver Ash with a condenser, which benefited lavassier a lot. Lavoisier just repeated Priestley's experiment on oxygen, and connected it with a large number of accurate experimental materials, made scientific analysis and judgment, and revealed the real connection between combustion and air. However, until 1783, when Lavoisier's theory of combustion and oxidation was generally regarded as correct, Priestley still refused to accept his explanation, insisted on the wrong phlogiston theory, and wrote many articles against Lavoisier's view. This is an interesting fact in the history of chemistry. A person who discovers oxygen becomes a person who opposes the theory of oxidation. However, the discovery of oxygen by Priestley was an important factor in the development of chemistry. So chemists all over the world still respect Priestley< In 1791, because he sympathized with the French Revolution, he made several propaganda speeches for the revolution, but he was persecuted by some people, his home was copied, and his books and experimental equipment were set on fire. He escaped alone and took refuge in London, but it was difficult for him to live in London for a long time. In 1794, at the age of 61, he had to move to the United States. Continue to engage in scientific research in the United States. He died in 1804. The people of the United Kingdom and the United States respect him very much, and there are statues of him in Britain. In the United States, the house where he lived has been built into a memorial, and the Priestley medal named after him has become the highest honor in the American chemical instry
Story 3:
Madame Curie
Marie Curie (Madame Curie) is a French Polish physicist and chemist< In 1898, French physicist Antoine Henri Becquerel discovered that uranium bearing minerals can emit a mysterious ray, but he failed to reveal the mystery of this ray. Mary and her husband, Pierre Curie, worked together on the radiation. Under extremely difficult conditions, they separated and analyzed pitchblende, and finally found two new elements in July and December 1898
in memory of her motherland Poland, she named one element polonium and the other radium, which means "radioactive substance". In order to prepare pure radium compound, Marie cui7e (1867-1934) spent four years to extract 10 mg radium chloride from tons of pitchblende slag, and the relative atomic mass of radium was 225. This simple figure embodies the painstaking efforts and sweat of the Curies< In June 1903, Madame Curie received her doctor's degree in physics from the University of Paris with her doctoral dissertation in the study of radioactive substances. In November of the same year, the Curies were awarded the David gold medal by the Royal Society. In December, they won the 1903 Nobel Prize in physics with becoller< In 1906, Pierre Curie died in a car accident. This heavy blow did not make her give up her persistent pursuit. She enred her grief and redoubled her efforts to complete their beloved scientific cause. She continued her husband's lecture at the University of Paris and became the first female professor of the University. In 1910, her famous book on radioactivity was published. With Mou, she worked with others to analyze pure metal radium and determine its properties. She also measured the half lives of oxygen and other elements and published a series of important works on radioactivity. In view of the above achievements, she won the Nobel Prize in chemistry in 1911 and became the first great scientist to win the Nobel Prize twice in history< br />
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