A little bit about the Philips Ricard Feynman


A little bit about the Philips Ricard Feynman - The history of the world scientists named Ricard Philips Feynman was born on May 11, 1918, in the Far Rockaway, New York, United States. His father was a clothing military uniforms who educate Feynman with a broad range of natural sciences.

At the age of 12 years, he has had a laboratory that he created himself. There he tries to do electrical experiments, make a simple radio, into a radio amateur call technician. He also plays with the simple chemistry experiments. The ingredients are taken from foliage and seasoning Cook's mother.

A little bit about the Philips Ricard Feynman
Feynman traveled a College Department of physics at the Massachusetts Institute of Technology. There he is dissembling by astrophysicist named John Wheeler. Its proximity to Wheeler made Feynman as a speaker in a seminar regularly. Wheeler invited many famous scientists and physicists, including Albert Einstein in the workshop.

Feynman finish level S-3 and earned a Ph.d. in 1942. After graduating he joined the Manhattan project, the project is the development of the first atomic bomb. He was stationed in Los amolos to work on the theories of decipherment of the atomic nucleus as a source of energy of an atomic bomb. At Princeton University, he developed a theory about how to separate uranium-235 and uranium-238.

A little bit about the Philips Ricard Feynman

Feynman had a profession as musicians drums festival when it became a guest professor at the University of Rio de Janeiro, Brazil. He also practiced drawing and some of his work ever published on behalf of the "Ofey."

Feynman's most famous adventure was when he managed to solve the mystery of the hit of the space shuttle Challenger in 1986.

Feynman may not be smart in his day, but he has made a science of physics fun. How to solve the problem and explain it in his writings and his lecture, the inspiration for thousands of young physicists. Feynman died on February 15, 1988, due to suffering from bowel cancer.

Feynman made physics as a game

At Los Alamos, all the necessary files on the development of the making of the atomic bomb are always stored neatly in the closet safe locked meeting by Feynman. He always felt the key it still less secure, and he proved it by way of debunking one by one all safe in there.

Because smart unlock the padlock Feynman is referred to as "artisan open locks, drawer, and safe." General Leslie Groves, a military figure who led the project at Los Alamos had to ordered to replace all safe in the Office because of the manner of Feynman's successful bust the lock without destroying it.

Feynman was instrumental in the success of the Manhattan project. After completion of the project, he joined Cornell University in 1945-1950, later moved to the California Institute of Technology (Caltech). And in 1959 he was appointed Professor of Physics at the University.

The ability of Feynman explains the complex science becomes straightforward and beautiful made him famous and famous among scientists. In 1961, he was providing himself to teaching science basis for new students the first year. His lecture not only attended from among the students themselves, but also by senior students, researchers, and even professors.

The largest donation was in the Feynman quantum electrodynamics. The theory of quantum electrodynamics is the relativistic quantum field theory of electrodynamics. This theory describes how light and matter interact, as well as the first theory is that achieve conformity between quantum mechanics and special relativity.

QED mathematically describes all phenomena involving electrically charged particles. Feynman mentions this theory as "the jewel of physics" for their ability to predict the precise quantities, such as the anomalous magnetic moment of the electron and the shift of the energy levels of hydrogen Lamb. This theory is quantum theory most successful so far.

Other contributions from Feynman Feynman diagram, which shorten the calculation many sheets into a piece of simple pictures that are easy on the physical interpretation. This diagram is used extensively in the study of interactions between particles.

Feynman diagram explains how two electrons each other resist when adjacent to the exchange of photons. According to Feynman, the process is not simple, not one mode of occurrence. We know that in the world of micro, according to with Heisenberg's uncertainty principle, there is no particle stationary. Thus, the electrons are moving quietly considered macroscopic active.

Feynman grabbed the Nobel Prize in Physics in 1965 along with Julian Schwinger (USA) and Shinichiro Tomonaga (Japan) over the findings. All three are equally contributing in quantum electrodynamics, but his mathematical methods are different.

Feynman made physics as a game that spots for you. Keingintahuannya and her passion for playing with the physics have been involving right in various adventures.

Very inspiring, adventure exclamation, and noisy, encapsulated in a two-book biography of Feynman, "Surely You are Joking, Feynman Mer" (1981) and "What Do You Care What People Think" (1989).

All this expertise was initially not owned by Feynman. He learned it just out of curiosity. Feynman could not draw, so he tried to doodle on paper. He did not understand the origin of the music, so he hit the drum. He is always thinking of things not thought up by someone else. His ideas are always unique but simple.

Various experiments are always referred to as experimental "simple and straightforward". Everything is done with one condition, that can be done while playing. One sentence that he says is always "What do you care what other people think?"

Feynman gives an easy way in studying physics, namely the study on its own without having to be bound by the rules that already exist in the books guidelines. With learn it on your own, we will understand the concept. We also will not easily forget.

Unlike memorizing all the formulas and concepts of physics. If only memorize us not necessarily understand. But if you already know, we must remember for all.

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