You must have heard einstein's saying, whether you're a slag or a scoundrel: "imagination is more important than knowledge, because knowledge is limited, and imagination sums up everything in the world and is a source of knowledge evolution."
Yeah, even if you've got as much knowledge as you've got, there's no imagination to put wings on him, and little knowledge doesn't fit in. Let's hear it today from sensei ho on how einstein put it into practice
Imagination is more important than knowledge. Let's hear it from the master
The “modern” life we now have is shaped by a combination of technological innovations and engineering achievements. The achievement of these technological innovations and engineering achievements often depends on new scientific theories, or an in-depth understanding of the nature of the world。
Whether it be technological inventions, engineering planning or the search for scientific patterns to create theory, much depends on the success of people's innovative thinking。
As the famous physicist albert einstein has said, “the imagination is more important than the knowledge” in exploring the path of unknown and inventive innovation。
Einstein
The city's bell tower meditation
Einstein was still a general patenter when he put forward the relativity that affected the world, but he had the imagination to go beyond the times, in addition to the background knowledge needed for physical research。
The city's bell tower is an all-too-too-too-too-frequent landmark, and einstein has been thinking about it and has begun a famous ideological experiment: “when the big clock shows 8 o'clock, it's because my eyes see the light of the bell and the light of the light of the pointing, with the concept of `now 8 o'clock'。
But if i leave the bell tower at the speed of light, then i'll always see eight o'clock; if i leave this bell at a little slower than the light, then in my eyes the clock will go very slowly。
Thus, if people move at a rate close to the speed of light, in his view time slows down. This leads us to the further inference that the object's length will be shorter and its mass will increase.”
People's imagination and exploration of wormholes continue
The narrow relativism that einstein put forward in 1905 was the product of these reflections. It is clear that all his assumptions, at least under historical conditions at the time, cannot be verified. He has, however, advanced this theory with a wealth of knowledge and imagination。
In 1915, einstein again introduced a broad relativity doctrine based on narrow relativism. The central idea of this theory is to complement classical physics (newton mechanics, etc.)。
The wormhole is considered a shortcut for interstellar travel
Broad relativity confirmed
In a broad relativism, einstein believed that the existence of quality could cause a time- and space-curve, but that was equally unproven in that year. Fortunately, the astronomical theory at that time had been able to predict the eclipse. As a result, a daily food observing team, led by british astronomer edington, decided to use the 1919 daily foods of princeton island, africa, to validate the idea of general relativity。
In this observation, the astronomical telescope photographed a small deviation from einstein's theory when the distant starlight arrived at earth through the sun. Einstein is also known as a world-renowned physicist。
Interactive question and answer
Q: more innovative thinking or hard work are needed to achieve academic achievements
What is good: both new scientific theories and technological innovation are mutually reinforcing. The life experience of integrated circuit inventor kirby is a good example。
In the autumn of 1958, the american without a doctorate built the world's first integrated circuit using crude experimental material, opening a whole new era。
His ability to integrate circuits into a semiconductor and eventually complete it is clearly a reflection of his innovative thinking and implementation。
In fact, kirby has more than 60 american patents and the glory of winning the nobel prize is based on his innovation and diligence. Both are equally important for scientific research and technological innovation。
