Famous aphorisms: Success
Bold attempts are half the battle. ——British Proverb
When failure is inevitable, failure is also great. ——Whitman
Failure
Failure is often the darkness before dawn, followed by the dawn of success.
————Hodges
The glory of life lies not in never failing, but in being able to rise again and again. ——Napoleon
A person who becomes discouraged at the first blow will always be a loser. —— Somerset Maugham
Famous Aphorisms on Happiness
Any happiness will not be completely pure, but will always be mixed with some sadness.
————Cervantes
The most wrong way to happiness is fame, wealth, pleasure and luxurious life.
—— Schopenhauer
The greatest happiness in life is the belief that someone loves us. ——Hugo
I want to hold fate by the throat, and it will never make me surrender. ——Beethoven
Will Chapter
My husband has ambitions all over the world, but he can only say that he is poor. ——Du Fu
There is no smooth road in science. Only those who are not afraid of hard work and climb the steep mountain road can hope to reach the glorious peak. ——Marx
Great goals arise from great perseverance. ——Stalin
Creation
Talents work and geniuses create. --- Schumann
What is a road? It was trampled out of roadless ground, carved out of a place where there were only thorns.
Wisdom Chapter
Questioning is the first step towards philosophy. —— Diderot
Talent
Great wisdom is like foolishness, great skill is like clumsiness, great argumentation is like indolence. ——Lao Tzu
Know your enemy and yourself, and you can fight a hundred battles without danger. ——Sun Tzu
Pursuing Knowledge
Books are my slaves and should obey my will and be used by me. ——Marx
The imagination of an unlearned person has only wings but no feet. ——Franklin
The book is the most complex and greatest miracle among all the miracles created by mankind on the road to future happiness and prosperity. ——Gorky Farabi (870-950)
He was a scholar involved in many fields, including philosophy, linguistics, logic and music. He also wrote about natural science, arguing for proof of the existence of a vacuum.
Birkeland
(1867-1917), who was a pioneer in the study of the geomagnetic field and the Northern Lights. He hypothesized that auroras are caused by the negative charges emitted by the sun being attracted by the geomagnetic field into the earth's atmosphere. Appearing on the left side of this note is a set of equipment he used to simulate this effect.
Niels Bohr
(1885-1962), Bohr was one of the principal architects of quantum theory that underlies our understanding of the properties of matter. He created the first quantized model of the atom (Bohr model). He played an important role in the modern interpretation of quantum theory.
Boskovich (1711-1787), Boskovich made great contributions to orbital mechanics. He was one of the first scientists to speculate on the existence of forces between atoms.
Copernicus
(1473-1543), he was the first scientist to propose the theory of the solar system. He believed that the sun was at the center and the planets revolved around it in certain orbits. Supported by any kind of invisible crystal-like sphere. His works were published only after his death. Read the summary of his biography, and you will understand why this is true when you consider the circumstances he was in at the time.
Pierre. Curie and Marie. Curie (Marie: 1867-1934, Pierre: 1859-1906), they led the discovery and classification of radioactive elements, and jointly won the 1903 Nobel Prize for this. Marie Guy won her second Nobel Medal in 1911 for her work on the element radium. Their daughter, Irene Joliot-Curie, also won a Nobel Prize.
Democritus (about 460 BC – 370 BC), he was the first to describe that matter is composed of indivisible small particles (atoms) in a vacuum One of the ancient philosophers who formed the movement.
Albert Einstein (1879-1955),
As the greatest scientist of the 21st century, Einstein not only discovered the special theory of relativity (the properties of objects moving at high speeds) and general relativity (the theory of gravitational action), and also made fundamental contributions to the beginning of quantum theory.
Leonhard Euler
(1707-1783), his mathematical contributions include the theory of fluid flow (used to study how to make airplanes fly) and the theory of rigid body rotation (using made great contributions to satellite control).
Michael Faraday (1791-1867)
Faraday was one of the principal discoverers of the properties of electric currents and magnetic fields and the relationship between them. This discovery laid the foundation for the use of electric motors and generators.
Benjamin Franklin (1706-1790) was a pioneer in the field of electricity. He first proposed the conservation of charge.
Galileo (1564-1642), in a sense, he was the first scientist. He discovered the criticality of how to locate moving bodies.
Gauss (1777-1855), in addition to his many contributions to mathematics, Gauss also made important discoveries in electromagnetic theory.
Christian Huygens
(1629-1695), Huygens was a contemporary of Newton who made many important discoveries and inventions. Thanks to his greatly improved home-made telescope, he was the first to discover that Saturn had rings (Gauss considered it a "triple planet"). He made the first pendulum that greatly enhanced the accuracy of time measurement.
Marconi (1874-1937), developer of the first successful radio.
Newton (1643~1727), Newton, can be said to be the greatest physicist in history. His work established the scientific method of inquiry into fundamental elements. He made important discoveries in kinematics - about the nature of light, gravity and the properties of matter. (The following is an excerpt from "History: Britain on Banknotes") On the table is the first reflecting telescope he made, the basis of modern large-scale optical astronomical telescopes. The main pattern on the left half of the back is various ellipses - the orbits of celestial bodies governed by gravity.
Hans Christian Oslacherdid (1777-1851), who discovered in 1820 that electric current deflects magnetic compass needles. This discovery marked the beginning of the unification of electrical and magnetic phenomena.
Eulafa Romer (1644-1710), he was the first person to prove that the speed of light is not infinite. He used irregularities in the occurrence of Jupiter's moons to obtain an estimate of the speed of light.
Ernest Rutherford
(1871-1937), Rutherford and his students demonstrated experiments that helped people understand the interpretation of atoms - atoms Most of the mass is contained in a very small center (nucleus), and the size of the atom depends on some extremely small particles - electrons.
Erwin Schl?dinger Schl?dinger was one of the main pioneers of quantum theory, which explains that the properties of matter are caused by its components - electrons and atomic nuclei. The success of this theory made possible the development of modern electricity including transistors and lasers.