Shown in the figure below is a re-creation of the Rutherford experiment. The "target" (green) nucleus is Uranium and has a charge of Q = 1.474e-17 Coulombs and a large mass. You fire a Lithium nucleus, with charge q = 4.806e-19 Coulombs and mass m = 1.162e-26 kg at a velocity of v₁ = 2.03e+07 m/s from a location far away from the Uranium nucleus. At moment #2, the separation between the centers of the two nuclei is d₂ = 8.67e-14 meters. We shall treat the Uranium nucleus as stationary throughout the process. Very far away, d₁00 Moment #1 Moment #2 Moment #3 Calculate all the following: The velocity of the small nucleus at moment #2 V₂ = The distance at moment #3 ds = m d₂ PotentialBag-Rutherford V₂=0 d₂=? m/s
Shown in the figure below is a re-creation of the Rutherford experiment. The "target" (green) nucleus is Uranium and has a charge of Q = 1.474e-17 Coulombs and a large mass. You fire a Lithium nucleus, with charge q = 4.806e-19 Coulombs and mass m = 1.162e-26 kg at a velocity of v₁ = 2.03e+07 m/s from a location far away from the Uranium nucleus. At moment #2, the separation between the centers of the two nuclei is d₂ = 8.67e-14 meters. We shall treat the Uranium nucleus as stationary throughout the process. Very far away, d₁00 Moment #1 Moment #2 Moment #3 Calculate all the following: The velocity of the small nucleus at moment #2 V₂ = The distance at moment #3 ds = m d₂ PotentialBag-Rutherford V₂=0 d₂=? m/s
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