The magnitude of the center of mass energy, √s ,determines what reactions can take place. Which has a higher CM energy: A 10 GeV (1 GeV = 109 electron Volt) electron colliding with a target (stationary) proton, or a 10 GeV proton colliding with a target electron

The magnitude of the center of mass energy, √s ,determines what reactions can take place. Which has a higher CM energy: A 10 GeV (1 GeV = 109 electron Volt) electron colliding with a target (stationary) proton, or a 10 GeV proton colliding with a target electron

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Question

A)The magnitude of the center of mass energy, √s ,determines what reactions can take place. Which has a higher CM energy: A 10 GeV (1 GeV = 10⁹ electron Volt) electron colliding with a target (stationary) proton, or a 10 GeV proton colliding with a target electron

B) What is the advantage of a collider in which 45 GeV electrons and positrons collide as compared with a beam of 90 GeV positrons hitting a stationary electron? In each case what is the CM energy available to create new particles ?

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