A particle collider is used to accelerate protons to a speed of 0.9999 c. According to a lab-based observer, the protons travel 500.0 m along the length of a certain section of the particle collider. a. According to an observer in a proton's frame of reference, what distance does the proton travel through this section of the collider? b. What is the relativistic momentum and the total relativistic energy of the protons when they are traveling with a speed of 0.9999 c? Express your answers in kg(m/s) and MeV (1 MeV= 10^6 eV), respectively.

A particle collider is used to accelerate protons to a speed of 0.9999 c. According to a lab-based observer, the protons travel 500.0 m along the length of a certain section of the particle collider. a. According to an observer in a proton's frame of reference, what distance does the proton travel through this section of the collider? b. What is the relativistic momentum and the total relativistic energy of the protons when they are traveling with a speed of 0.9999 c? Express your answers in kg(m/s) and MeV (1 MeV= 10^6 eV), respectively.

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