Chinese Premier Li Keqiang met with Shing-Tung Yau, a world-renowned mathematician, in Beijing on Friday, emphasizing the importance of mathematics in the innovation and development of science and technology. Li stressed that basic science is the fundamental support for scientific and technological advancement, and mathematics is the foundation of basic science, earning it the title of the crown of natural science.
In the meeting, Premier Li Keqiang acknowledged the critical role of mathematics in scientific advancement, and praised the contribution of Shing-Tung Yau, a distinguished mathematician who has made significant contributions to the field. Yau’s work has been instrumental in furthering the understanding of complex geometric structures, and he is widely recognized as one of the leading mathematicians of our time.
Premier Li’s remarks underscore the importance of supporting and investing in basic scientific research, as it provides the building blocks for the development of new technologies and innovations. In this context, mathematics plays a critical role, as it provides the foundation upon which many other branches of science and technology are built. The premier’s meeting with Shing-Tung Yau is an indication of the Chinese government’s commitment to promoting scientific research and innovation.
Mathematics has long been recognized as a crucial component of scientific development, and Chinese Premier Li Keqiang emphasized its importance during a recent meeting. He urged researchers to respect the laws of science and devote themselves to strengthening research in basic science. Li acknowledged that the foundation of scientific innovation and development is rooted in the fundamental support of basic science, particularly in the field of mathematics. As a result, mathematics is often regarded as the crown of natural science.
Innovation and development of science and technology require the advancement of basic science. Li stressed the need for researchers to stay focused and devoted while giving full play to their imagination and creativity. By doing so, they can make breakthroughs in the field of mathematics, laying the groundwork for scientific advancements.
Li also highlighted the importance of respecting talents and creating an environment that encourages their skills. Researchers should have the opportunity to showcase their abilities in a supportive atmosphere that promotes innovation and excellence. This environment should also foster international exchanges and cooperation, contributing to the progress of human civilization.
China has been making significant strides in scientific research, including mathematics. The country recognizes the importance of investing in basic science to drive innovation and progress. By fostering an environment that values and supports researchers, China can continue to lead in scientific research, making significant contributions to human knowledge and development.
Shing-Tung Yau is a prominent figure in the field of mathematics, with a career focused on both research and education. His contributions to mathematics have earned him numerous accolades and recognition, including the prestigious Fields Medal. As a Chinese-born mathematician, Yau has also made it his mission to promote the development of basic disciplines and education of outstanding mathematical talents in China.
Yau’s research in mathematics has been significant in advancing the field. His work spans across various subfields, including differential geometry, topology, and theoretical physics. His research has led to the development of new concepts and techniques that have had far-reaching impacts in mathematics and beyond. Yau’s work has also been instrumental in developing new insights into the geometry of space-time, which has important implications for understanding the structure of the universe.
In addition to his research, Yau has also been actively involved in promoting mathematical education and talent development in China. He has been a strong advocate for the importance of mathematics in the education system, and has worked to establish programs that support the training of outstanding mathematical talents in China. Yau’s efforts have helped to elevate the level of mathematics education in China, and have contributed to the cultivation of a new generation of talented mathematicians in the country.
Overall, the meeting between Premier Li Keqiang and Shing-Tung Yau is a significant event that highlights the importance of mathematics in scientific advancement and the critical role of basic scientific research in technological innovation. The Chinese government’s focus on investing in scientific research bodes well for the future of scientific innovation in China and globally.
Finally, it is worth noting that Yau’s contributions to the field of mathematics have been widely recognized. As the first Chinese-born mathematician to receive the Fields Medal, Yau has achieved an extraordinary level of recognition and success. His accomplishments have inspired countless others to pursue mathematics and have helped to raise the profile of mathematics as an important field of study. Overall, Yau’s work in mathematics and his dedication to education have made a significant impact on the field and on society as a whole.
In conclusion, mathematics is the foundation of scientific development, and Chinese Premier Li Keqiang acknowledged its importance during his meeting with mathematician Shing-Tung Yau. He urged researchers to respect the laws of science and strengthen research on basic science, particularly mathematics. By creating an environment that supports innovation and excellence, China can continue to make significant strides in scientific research, contributing to the progress of human civilization.
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