He and his children went to the lotus pond to pick lotus roots. Li Siguang is very clever. He first stepped on the lotus root along the leaves, then carefully explored the direction of the lotus root with his feet, and then stepped on the mud bit by bit according to its growth direction, and harvested a complete fresh lotus root.
After that, Li Siguang went to Wuchang alone, took the official primary school exam, and the exam results were announced. Li Siguang ranks first. /kloc-when he was 0/4 years old, he was sent to Japan by the school for further study. While studying in a university in Japan, he became interested in geology and was determined to explore the mystery of geological structure.
Decades later, he carefully studied the geological structure, put forward the structural theory of geomechanics, and used this theory to find oil and gas resources and minerals, predict earthquakes and develop geothermal energy, which wrote a glorious page in the geological history of China.
Li Siguang has a famous saying:
1, science is an honest thing, it depends on the labor and wisdom of many people to accumulate.
The true scientific spirit should be cultivated from correct criticism and self-criticism. Real scientific achievements must stand the test of facts. With such a double guarantee, we can do it with confidence and boldness, and will not dig the trap of arrogance.
Science respects facts, you can't make up excuses to attach a theory.
Extended data
Scientific contribution:
Li Siguang founded geomechanics, which made great contribution to the development of China petroleum industry. In his early years, he made exquisite research on Odonata fossils and their stratigraphic stratification, put forward the existence of Quaternary glaciers in eastern China, and established new concepts of geomechanics and tectonic system.
The concept of "tectonic system" was established, and the geomechanics school was founded. It is pointed out that the three subsidence zones of the new Cathaysian tectonic system have broad prospects for oil exploration, and a way to predict earthquakes by combining active tectonic research with in-situ stress observation is created.