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2. The future circular collider (FCC) is proposed to collide protons with energy 50 TeV head on. There are concerns that being the highest ever energy collider exotic heavy stable particles could be produced, that interact with nucleons in a chain reaction that could eventually lead to the destruction of the Earth. Scientists note, however, that high energy protons from interstellar space hit bodies such at the Earth and Moon on a regular basis and such collisions could be used to test whether such a scenario could be ruled out. [Radius of the Earth = 6,400 km. Age of Earth 4.5 x 10⁹ years. Proton mass is 0.938 GeV/c². Total number of proton-proton collisions expected at the FCC is 3.5 × 10¹8] The flux of protons hitting the Earth's surface has been measured and can be approximated at high energies as do dE 9 x 1024 E3 [s¹m²eV-¹] where E is the energy of the incident proton in the Earth's rest frame in eV. Estimate the rate of protons hitting the Earth with energies above 5.3 x 106 TeV Assuming all protons incident on the earth collide with a nucleon and neutron collisions are equivalent to proton collisions, work out how many years must pass before the Earth undergoes the same number of collisions at equal or higher energies to the FCC and hence explain if this is a sufficient test of the safety of the FCC.