If two colliding protons in the Large Hadron Collider approached head-on, each with an energy of 7 TeV, what would be the minimum distance of separation between their centers? Compare this to the approximate range of the strong and weak nuclear forces. Comment.
Answer to relevant QuestionsMultiple choice questions 1. How many base units are there in the SI: (a) 3, (b) 5, (c) 7, (d) 9? 2. The only SI standard represented by material standard or artifact is the (a) Meter, (b) Kilogram, (c) Second, (d) ...The correct equation for the volume of a sphere is V = 4πr3/3, where r is the radius of the sphere. Is the equation in Exercise 12 correct? If not, what should it be when expressed in terms of d? (a) Compared with a 2- L soda bottle, a half- gallon soda bottle holds (1) more, (2) the same amount of, (3) less soda. (b) Verify your answer for part (a). A person weighs 170 lb. (a) What is his mass in kilo-grams? (b) Assuming the density of the average human body is about that of water (which is true), estimate his body’s volume in both cubic meters and liters. Explain ...For the 7-TeV (kinetic energy) protons produced by the Large Hadron Collider, determine (a) The total energy and (b) The momentum of each proton. (c) By how much (in m/s) does their speed differ from c? Carry the answers ...
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