Much of Einstein's theory of relativity was puzzling, even for other scientists. However, the more they studied it, in particular the mathematical equations that Einstein offered as evidence, the more they realized their precision. The followin are the essential points of this theory.
Around 1900, the Dutch scientist Hendrick Lorentz developed a formula that showed that as the velocity of an electron approaches that of light, its mass increases 7 times.This was the starting point of Einstein's theory. He puttogether some mathematical equations and showed that themass of any matter, not just the electrons, increase withspeed. This change is too small to be perceptible in ourvisible world, but in the world of atomic and subatomic particlesit is very important. It is because of Einstein's next discovery.
For centuries, conservation of matter and conservation of energy were fundamental laws of physics. These laws arguethat matter and energy can change shape, but they cannot be created or destroyed.
Discoveries related to the behavior of some radioactive elements, such as Curie's work with the radio, seemed toindicate that researchers were creating energy. Einstein had found an explanation. I point out that the mass is a measureof the "Frozen" energy content of a substance. When one changes, so does the other.
The mass can be transformed into energy and the energy can be transformed into mass. It showed it by mathematical equations summarized in the Formula E = MC2, in which E isthe energy M is the mass and C2 is the speed of light multiplied by itself, ie squared. Since the speed of light is about 300,000 kilometres for second, the equation indicatesthe enormous amount of energy stored in the matter.
Another part of the theory was related to the movement andit was so bold that it contradicted the great Newton. In oneof his laws of motion, Newton claims that all bodies areeither resting or even moving until an external force actedupon them. Einstein was of the opinion that it is impossibleto determine the movement in an absolute way.
Everything from the most distant stars to the smallestelectron is always moving, so that the movement or itsspeed is relative only (this is the name of the theory ofrelativity), which means that it depends on where you cansee the Movement. This means that the measurement ofsize, mass and even time could vary because it depends onthe relative movement of the object being measured and theobserver that is making the measurement.
Einstein applied this same principle to the speed of light.Most of the speed forms are also relative. For example, a car approaching a high signal at a speed of 50 kilometres perhour ha a speed of 50 kilometers per hour with respect tothe high signal or any other stationary object. If anautomobile passenger throws a ball at a speed of 30 km/h,the speed of the ball with respect to the signal is now 80 miles per hour, the speed of the car plus the speed of theball. However, Einstein Express that the light does not behave this way, always travels at constant speed.
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