Difference between revisions of "Special Relativity"
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| − | Special relativity deals with spacetime and its behavior when an object is moving in a line. Some of its statements are: objects moving at higher speeds experience slower time. Also, the speed of light, or <math>c</math>, is the highest speed any object can achieve. Objects moving at ''c'' would then move to their destination in no time since time slows down to a stop. | + | Special relativity deals with spacetime, and its behavior when an object is moving in a line. Some of its statements are: objects moving at higher speeds experience slower time. Also, the speed of light, or <math>c</math>, is the highest speed any object can achieve. Objects moving at ''c'' would then move to their destination in no time since time slows down to a stop. |
Special relativity also deals with the equivalence of mass and energy, with the famous equation <math>E=mc^2</math>. This shows that the amount of energy an object contains is equal to its mass multiplied by the squared speed of light. It also shows that a huge amount of energy can come from only a tiny piece of matter. | Special relativity also deals with the equivalence of mass and energy, with the famous equation <math>E=mc^2</math>. This shows that the amount of energy an object contains is equal to its mass multiplied by the squared speed of light. It also shows that a huge amount of energy can come from only a tiny piece of matter. | ||
Revision as of 20:36, 16 August 2019
Special Relativity
Special relativity deals with spacetime, and its behavior when an object is moving in a line. Some of its statements are: objects moving at higher speeds experience slower time. Also, the speed of light, or 
, is the highest speed any object can achieve. Objects moving at c would then move to their destination in no time since time slows down to a stop.
Special relativity also deals with the equivalence of mass and energy, with the famous equation 
. This shows that the amount of energy an object contains is equal to its mass multiplied by the squared speed of light. It also shows that a huge amount of energy can come from only a tiny piece of matter.
