![SOLVED: Einstein's famous equation states E = mc2, where E is energy. If m is the mass of an object in kg and c is the speed of light in m s-1, SOLVED: Einstein's famous equation states E = mc2, where E is energy. If m is the mass of an object in kg and c is the speed of light in m s-1,](https://cdn.numerade.com/ask_previews/e2339b3b-5bc4-4bf0-87da-970215f5bf3c_large.jpg)
SOLVED: Einstein's famous equation states E = mc2, where E is energy. If m is the mass of an object in kg and c is the speed of light in m s-1,
![At Speeds Near Light Mass Does not actually Change unless you apply more energy. A New look at E=mc2 – Totally Crunked At Speeds Near Light Mass Does not actually Change unless you apply more energy. A New look at E=mc2 – Totally Crunked](https://totallycrunked.files.wordpress.com/2017/08/55188a6d33fa7e9a7ba99e2873c7ce1a-albert-einstein-poster-science-humor.jpg)
At Speeds Near Light Mass Does not actually Change unless you apply more energy. A New look at E=mc2 – Totally Crunked
![Deriving Einstein's most famous equation: Why does energy = mass x speed of light squared? - YouTube | Einstein, General relativity, Special relativity Deriving Einstein's most famous equation: Why does energy = mass x speed of light squared? - YouTube | Einstein, General relativity, Special relativity](https://i.pinimg.com/736x/ae/84/6f/ae846fe3ee701553ab5328d146eb8bff.jpg)