Another paper talked about the Brownian motion, published in May 1905. This is an irregular movement of microscopic particles suspended in a liquid or gas. He expanded on Robert Brown’s observations, which Brown observed in 1827.
The Special Theory of Relativity paper was published in June 1905. This paper explained that constant motion does not affect the velocity, or speed, of light. An example of this can happen when you are in a train, and your friend is on the ground. If a light is flashed from the back of the train to the front, it will take the same time to get from the back to the front if you timed it, than it will when your friend timed it.
Interchangeability of mass and energy was what was explained in a paper published in September 1905. This paper was where Einstein came up with the well-known formula: E=mc2. The body’s energy (E) is equal to the body’s mass (M), multiplied by the speed of light (C), and then squared.
The Special Theory of Relativity paper was published in June 1905. This paper explained that constant motion does not affect the velocity, or speed, of light. An example of this can happen when you are in a train, and your friend is on the ground. If a light is flashed from the back of the train to the front, it will take the same time to get from the back to the front if you timed it, than it will when your friend timed it.
Interchangeability of mass and energy was what was explained in a paper published in September 1905. This paper was where Einstein came up with the well-known formula: E=mc2. The body’s energy (E) is equal to the body’s mass (M), multiplied by the speed of light (C), and then squared.
Einstein then worked on the Unified Field Theory. He never finished the theory, and no one else has completed researching and observing it. This theory included all electric, magnetic, and gravitational phenomena. It provided one description of the universe, instead of having one theory for electric, one for magnetic, and one for gravitational.