6.The equation E = mc² is a famous result of special relativity. What is the difference between that and the equation E = gmc²? O A. The former is the total energy of a relativistic particle; the latter is the kinetic energy. В. The former is the kinetic energy of a relativistic particle; the latter is the total energy. O C. The former is the rest energy of a relativistic particle; the latter is the total energy. OD. The former is the total energy of a relativistic particle; the latter is the rest energy.

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6.The equation E = mc² is a famous result of special relativity. What is the difference between that and the equation E = gmc²? O A. The former is the total energy of a relativistic particle; the latter is the kinetic energy. O B. The former is the kinetic energy of a relativistic particle; the latter is the total energy. O C. The former is the rest energy of a relativistic particle; the latter is the total energy. D. The former is the total energy of a relativistic particle; the latter is the rest energy. 9.A distant light source's light appears to Earth-based observers to be violet-shifted. What does it say for an observer? O A. the Earth and source are moving towards each other, relatively speaking. О в. the Earth and source are moving away from each other, relatively speaking. O C. the source is moving towards the Earth as the Earth is moving away from the source. O D. the Earth is moving towards the source as the source is moving away from the Earth.