The Speed of Light Analysis

When a curious observer watches the universe, he / she will return to hundreds, thousands, millions, even billions years ago. Photons from the mysterious star he / she is observing pass through at a rate of 186,000 miles per second until his / her eyes catch them. Light is a particle that can illuminate everything, and is the only way to see the elusive and spectacular nature of the universe. However, to understand that light is too fast to understand speed, speed is too big to reach any quality.

By introducing a large change in mechanics close to the speed of light, Maxwell's force and magnetic equations are coordinated with the laws of dynamics thanks to empirical evidence-based analysis that the speed of light is unrelated to observer movement . Denied the concept of "illuminated ether". The first paper Einstein, submitted to Annalen der Physik in 1900, was the capillary attraction. It was translated as "conclusion of capillary phenomena" and was published in 1901 under the title "Folgerungenausden Capillaritätserscheinungen". His two papers (Thermodynamics), published in 1902-1903, are trying to explain atomic phenomena from a statistical point of view. These papers are the foundation of the 1905 paper on the Brownian movement and show that the Brownian motion can be interpreted as the definitive proof of the existence of the molecule. His research in 1903 and 1904 focused on the effect of finite atomic size on diffusion phenomena.

When I was in King's College around 1862, Maxwell calculated that the electromagnetic field moved at approximately the speed of light (see Light velocity # electromagnetic constant). "I believe this is not a mere coincidence, commenting that" light can almost avoid the conclusion that light is composed of lateral fluctuations of the same medium that is the cause of electromagnetic phenomena. " "These equations predict the presence of the oscillating electric field and the magnetic field passing through the open space at a predictable speed in simple electrical experiments and using the data available at that time, Maxwell measures 310, 740,000 meters (1.0195) per second Achieve speed. × 109 feet / second)

Energy flow in a material medium in the form of electromagnetic radiation, free space, or electromagnetic waves such as radio waves, visible light, gamma rays and the like in classical physics and magnetic fields. In such waves, the time-varying field and the magnetic field are connected to each other at right angles and perpendicular to the direction of motion. Electromagnetic waves are characterized by their intensity and frequency of time-varying electric and magnetic fields.