Suppose that a certain accelerator can give the protons a kinetic energy of 200 GeV. The rest energy of the proton is 0.938 GeV. Calculate the largest resting energy of a particle X that could be produced by the impact of one of these protons high energy with a stationary proton in the process p + p → p +p + X.

Suppose that a certain accelerator can give the protons a kinetic energy of 200 GeV. The rest energy of the proton is 0.938 GeV. Calculate the largest resting energy of a particle X that could be produced by the impact of one of these protons high energy with a stationary proton in the process p + p → p +p + X.

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Question

Suppose that a certain accelerator can give
the protons a kinetic energy of 200 GeV. The
rest energy of the proton is 0.938 GeV.
Calculate the largest resting energy of a
particle X that could be produced by the
impact of one of these protons high energy
with a stationary proton in the process p + p
→ p +p + X.
Answer: 17,6 GeV

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