question archive Given that the energy needed to assemble a uniformly charged sphere of radius R and charge Q is U = 3keQ2/5R, where ke is the Coulomb constant, determine the energy (in MeV) needed to overcome the Coulomb repulsion of 18 protons uniformly distributed throughout a sphere the size of an Ar-40 nucleus
Given that the energy needed to assemble a uniformly charged sphere of radius R and charge Q is U = 3keQ2/5R, where ke is the Coulomb constant, determine the energy (in MeV) needed to overcome the Coulomb repulsion of 18 protons uniformly distributed throughout a sphere the size of an Ar-40 nucleus
Subject:PhysicsPrice: Bought3
Given that the energy needed to assemble a uniformly charged sphere of radius R and charge Q is U = 3keQ2/5R,
where ke is the Coulomb constant, determine the energy (in MeV) needed to overcome the Coulomb repulsion of 18 protons uniformly distributed throughout a sphere the size of an Ar-40 nucleus.
