Shown in the figure below is a re-creation of the Rutherford experiment. The target (green) nucleus is Lead and has a charge of Q = 1.314e-17 Coulombs and a large mass. You fire a Boron nucleus, with charge q = 8.01e-19 Coulombs and mass m= 1.827e-26 kg at a velocity of v₁=1.95e+07 m/s from a location far away from the Lead nucleus. At moment #2, the separation between the centers of the two nuclei is d₂ = 8.236e- 14 meters. We shall treat the Lead nucleus as stationary throughout the process.

Shown in the figure below is a re-creation of the Rutherford experiment. The "target" (green) nucleus is bead and has a charge of Q = 1.314@-17 Coulombs and a large mass, You fire a Boron nucleus, with charge q = 8.010-19 Coulombs and mass in = 1,8276-26 kg at a velocity of v, = 1.950+07 m/s from a location far away from the Lead nucleus. At moment #2, the separation between the centers of the two nuclei is dy = 8.236e-14 meters, We shall treat the Land nucleus as stationary throughout the process. Very far away, disco Moment #1 Moment #2 Moment #3 Calculate all the following: The velocity of the small nucleus at moment #2 vo The distance at moment = ] dy=