-
Liang Kunsen (from Nanjing, Jiangsu. Before his death, he was a professor in the Department of Physics of Nanjing University. Mr. Liang graduated from the Department of Physics of National ** University in June 1949 (** University is customary to refer to the grade of 1945 and graduated in 1949 as the 37th grade), and stayed in the Department of Physics of Nanjing University to teach after graduation.
He used to be the chairman of the "Mathematical Physics Methods Research Association" of colleges and universities across the country, the executive editorial board member of the journal "University Physics", the editorial board member of the journal "Physics Teaching", and the deputy director and director of the Theoretical Physics Teaching and Research Department and the Basic Physics Teaching and Research Department of the Department of Physics of Nanjing University. In the decades of teaching, he has studied hard and has always worked the front line of teaching. Since 1959, he has been committed to the reform of physics and mechanics courses for a long time.
Professor Liang's books (3 photos) were innovative, guiding students to complete the transformation from a middle school way of thinking to a university way of thinking, and the teaching was full of unique insights full of physical insight, and won the National Outstanding Teaching Achievement Award (1989) and the first prize of Jiangsu Province University Excellent Teaching Quality Award (1988). He has made outstanding achievements in the teaching of courses such as "Mechanics" and "Methods of Mathematical Physics", enjoys a high reputation among his domestic peers, and has established a new system of mechanics and theoretical mechanics that are interconnected, and is "the leader of mechanics teaching in China". In 1984, he went to the Netherlands to participate in the International Physics Teaching Conference and gave a report at the conference, which was highly praised.
After the publication of Mr. Liang's monograph "Methods of Mathematical Physics" in 1960, it had a great impact in China. He has also independently authored and edited Mechanics (Volume I and II), Superconductivity and Its Applications, Discussion of Mechanics (co-authored), Preliminary Special Relativity (co-authored), Mechanics and Physical Education, and many other books. It enjoys a good reputation among its domestic counterparts.
The Mechanics (Volume I and II) won the first prize of Excellent Textbook for Colleges and Universities of the State Education Commission (1988). Regarding the "Mechanical Principle of Horizontal Bar Late Spin", he won the third prize of Sports Science and Technology Achievement Award of the National Sports Commission (1982). In 1989, he was named "National Education System Model Worker" and was commended by the State Education Commission, the Propaganda Department of the Central Committee and the National Education Trade Union.
According to the teacher, "Methods of Mathematical Physics" has been the only textbook of mathematical methods in colleges and universities in China for a long time. Its system is still in use today, the book's.
The third and fourth editions are still textbooks for many universities, and of course there are a large number of new reference books derived from them. His Mechanics (Volume I and II) is still a textbook in the physics department of Nanjing University, and these courses are probably taught by his students.
-
In 1966, Chen Jingrun, a famous mathematician in China, conquered "1+2", that is: "If anyone who is big enough but cannot prove it himself, he wrote to ask the famous mathematician Euler to ask him for help."
-
Famous Chinese mathematician.
Famous mathematicians of classical mathematics (in order of year of birth).
Chen Chen (born around 250 AD), Li Sheng (born in 429 AD), Zu Chongzhi (born in 429 AD), Zu Yu (son of Zu Chongzhi), Zhang Qiujian (born in the Northern Wei Dynasty), Qin Jiushao (born in 1208), Guo Shoujing (born in 1231), Zhu Shijie (1 Yang Hui Triangle born in 249), Jia Xian (born in the Northern Song Dynasty), Yang Hui (Southern Song Dynasty), Zhao Shuang (Wu Guoren from the late Eastern Han Dynasty to the Three Kingdoms period), Wang Sui (born in 1235), Xu Guangqi (born in 1562), Mei Wending (b. 1633), Xue Fengzhu, Ruan Yuan (b. 1764), Li Shanlan (b. 1811), Li Huang (b. 1977).
Modern times (1840, 1919).
Feng Zuxun (b. 1880), Jiang Lifu (b. 1890), Hu Mingfu (b. 1891), Qian Baocong (b. 1892), Chen Jiangong (b. 1893), Xiong Qinglai (b. 1893), Yang Wuzhi (b. 1896), Zeng Jiong (b. 1897), Su Jiaju (b. 1899), Su Buqing (b. 1902), Jiang Zehan (b. 1902), Zeng Yuanrong (b. 1903), Gao Yangzhi (b. 1906), Zhao Wanxiong (b. 1908), Wu Daren (b. 1908), Zhuang Qitai (b. 1909), Ke Zhao (b. 1910), Xu Baolu (b. 1910), Hua Luogeng (b. 1910), Arien Shiingshen (b. 1911, foreign Chinese), Lu Qingjun (b. 1913), Duan Xuefu (b. 1914), Wang Xianghao (b. 1915), Tian Fangzeng (b. 1915), Xu Ruiyun (b. 1915), Lin Jiaqiao (b. 1916), Zhong Kailai (b. 1917), Yan Zhida (b. 1917), and Zhou Zhongwei (b. 1899) are the fathers of contemporary high mathematics.
Hyundai (1919, 1949).
Wu Wenjun (b. 1919), Feng Kang (b. 1920), Wang Hao (b. 1921), Zhang Mingyong (b. 1926), Gu Chaohao (b. 1926), Lu Qikeng (b. 1927), Gong Sheng (b. 1930), Wang Yuan (b. 1930), Chen Jingrun (b. 1933), Pan Chengdong (1934), Pan Chengbiao, Xiang Wuzhong (b. 1935), Xiang Wuyi (brother of Xiang Wuzhong), Lu Jiaxi (b. 1935), Wu Congxi (b. 1935), Zhang Guanghou (b. 1937), Yang Le (b. 1939), Zhou Weiliang, Xiao Yintang (b. 1943), Li Anmin, Hou Zhenting, Wang Xutang, Wu Hongxi, Peng Shige, Wang Juzhen, Wei Baoshe, Wang Jianding (b. 1947).
Contemporary (1949).
Tian Gang (1958), Yau Chengtong (Chinese expatriate), Huang Minzhao (Chinese expatriate), Zhang Weiping, Luo Maokang, Zhou Haizhong, Yuan Yaxiang, Chen Yongchuan, Jing Naihuan, Cai Tianxin, Zhu Xiping, Tang Tao, Wang Xiaoyun, Zhang Xu, Zou Quan, Shen Yi, Liu Lu.
-
Gauss, Fermat, Pythagoras, Archimedes, Newton, Euclid, Yang Hui, Qin Jiushao, Descartes, Leibniz, Euler, Bernoulli, Lagrange, Röhrl, Cauchy, Lobida, Taylor, von Neumann, Maxwell, Dirichlet, Hua Luogeng, Chen Jingrun, Xiong Qinglai, Russell, Su Buqing, Zu Chongzhi, Hilbert, Chen Shiingshen.
-
Hua Luogeng, Chen Jingrun, Gauss, Lagrange, Cauchy.
-
1.Euclid, 2Liu Wei, 3Qin Jiushao, 4Descartes, 5Fermat, 6Leibniz, 7Euler, 8Lagrange, 9Gauss, 10Hilbert.
-
Archimedes, Newton, Euclid, Yang Hui, Qin Jiushao, Descartes, Leibniz, Euler, Bernoulli, Lagrange, Rohr, Cauchy, Luo.
-
Hua Luogeng, Chen Jingrun, Gauss, Descartes.
-
Zu Chongzhi, Hua Luogeng, Chen Jingrun. That's all I know, vote for it, Gauss, Fermat, Pythagoras, Archimedes, Newton, Euclid, Yang Hui, Qin Jiushao, Descartes, Leibniz, Euler, Bernoulli, Lagrange, Rahr, Cauchy, Lobida, Taylor, von Neumann, Maxwell, Dirichlet, Xiong Qinglai, Russell, Su Buqing, Hilbert, Chern Shiingshen.
-
Liu Hui, Zu Chongzhi, Hua Luogeng 、......
Refer to the web page.
-
Genius lies in accumulation, and cleverness lies in diligence - Hua Luogeng.
-
1.Zu Chongzhi.
He was a native of Laiyuan County, Hebei Province during the Northern and Southern Dynasties of our country He read many books on astronomy and mathematics since he was a child, and he was diligent and studious, and practiced hard, which finally made him an outstanding mathematician and astronomer in ancient China. His outstanding achievement in mathematics is about the calculation of pi Zu Chongzhi and his son Zu Yu invented it"The principle of ancestry".
2.Su Buqing.
Su Buqing was born in September 1902 in a mountain village in Pingyang County, Zhejiang Province. His achievement was due to a class in his third year of junior high school. It was because of this class that he went to Japan to study at the age of 17 and was admitted to the Tokyo Higher Technical School with the first grade.
When he returned to Su Buqing, a professor at Zhejiang University, life was very difficult. In the face of the predicament, Su Buqing's answer was, "What is the point of enduring hardship, I am willing, because I have chosen a correct path, which is a patriotic and bright road!" This is the patriotic heart of the older generation of mathematicians!
3.Chen Jingrun.
Chen Jingrun has become an internationally renowned mathematician and is deeply respected by people. But instead of feeling complacent, he gave all the credit to the motherland and the people. In order to safeguard the interests of the motherland, he did not hesitate to sacrifice his personal fame and fortune.
Chen Jingrun is a very humble and upright person, although he has achieved fame, but he is not complacent, he said: "On the road of science, I have only climbed a small mountain, the real peak has not yet been climbed, and I must continue to work hard." ”
4.Wang Zhenyi.
The female mathematician Wang Zhenyi (1768 1797), a native of Jiangning, was the daughter of Wang Xichen, a scholar of the Qing Dynasty, and the author of one volume of "Western Calculations, Additions and Deletions", one volume of "Reformulating Policy and Calculation", four volumes of "Elephant Numbers", five volumes of "Brief Arithmetic", and one volume of "Easy to Know". From the writings she left behind, it can be seen that she was a female mathematician engaged in astronomy and calculation. Calculation, also known as planning, planning, planning, etc., sometimes also known as operators, is a rod-shaped calculation tool.
Generally, it is a batch of small sticks of the same length and thickness made of bamboo or wood, and there are also made of metal, jade, bone and other materials, which are placed in a special abacus bag or operator tube when not in use, and arranged directly on the table when used. The method of calculating using "arithmetic" is called "arithmetic", and the method of calculating is called "arithmetic" when it was introduced to Japan. Calculation originated very early in China, there is a sentence in "Lao Tzu" that "those who are good at numbers do not need to plan", and the earliest record seen now is "Sun Tzu's Calculation", and the calculation in the Ming Dynasty was gradually replaced by abacus.
5.Wang Yuan.
He is a famous mathematician and winner of the Hua Luogeng Mathematics Award. He is a researcher at the Institute of Mathematics of the Chinese Academy of Sciences. He has served as the director and director of the research office, the director of the academic committee of the institute, the chairman of the Chinese Mathematical Society, the editor-in-chief of Acta Mathematica Sinica, the magazine "Analysis" of the Federal Republic of Germany, and the consultant of the World Science Press in Singapore.
In 1980, he was elected as an academician of the Chinese Academy of Sciences (then known as a member of the Academy). Analytic number theory is his main area of research.
-
Is it Chen Jingrun? He studied 1+1 and published 1+2 results.
-
China's outstanding mathematicians include (Liu Hui), Zu Chongzhi, Yang Hui), Hua Luogeng) and so on.
Mathematicians (Yang Hui) became famous because of the Yang Hui triangle.
The most outstanding contribution of the mathematician (Zu Chongzhi) is (calculating pi).
Hua Luogeng, Lu Jiaxi, Chen Jingrun, Su Buqing.
Wang Shouguan Chern Shiingshen. >>>More
You should ask this question to your teachers.
The future reflections on Wittgenstein are recorded here, and it seems to me that his philosophy of language is tantamount to raising things to a dimension that has not been considered before. >>>More
1. Archaeology and museology should also fall within the scope of the general examination of history; >>>More
"Old Boy" is the famous director Park Chan-wook's "revenge trilogy" (i.e., "I want revenge"). >>>More