Now you have a nucleus with 16 protons at x = 2.7 Angstroms on the x-axis. What is the value of the electrostatic potential V at a point on the positive y-axis, at y = 3.1 Angstroms?
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Now you have a nucleus with 16 protons at x = 2.7 Angstroms on the x-axis. What is the value of the electrostatic potential V at a point on the positive y-axis, at y = 3.1 Angstroms?
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- Q-2: Two concentric conducting spherical shells of radii r¡ and r, > rz. The inner shell carries a charge +Q while the outer shell carries a charge +2Q as shown. Assuming V = 0 as r → ∞, Calculate: a. The electric field vectors: E1(r r2) b. The electric potentials: V, (r r2) c. The electric potential difference between the two shells: AVNow you have a nucleus with 19 protons, placed at x = 5.1 Angstroms. What TWO values of x (along the x-axis) will the total electrostatic potential V be equal to zero? 0.28 Angstroms and -0.26 Angstroms -0.11 Angstroms and 0.08 Angstroms 0.11 Angstroms and -0.08 Angstroms -0.28 Angstroms and 0.26 AngstromsI have placed an electron at the origin. The grid spacing is 1 Angstrom per small square. Now you have a nucleus with 7 protons at x = 3.5 Angstroms on the x-axis. What is the value of the electrostatic potential V at a point on the positive y-axis, at y = 2.5 Angstroms? (image included) -5.8 V 23.4 V 7.1 V 17.7 V
- 9. An electron has been placed at the origin. The grid spacing is 1 Angstrom per small square this time. Now you have a nucleus with 12 protons at x = 4.0 Angstroms on the x-axis. What is the value of the electrostatic potential V at a point on the positive y-axis, at y = 7.1 Angstroms? 21.2 V 11.5 V 19.2 V -2.0 VNow you have a nucleus with 5 protons at x = 2.0 Angstroms on the x-axis. What is the value of the electrostatic potential V at a point on the positive y-axis, at y = 3.3 Angstroms? 7.2 V 14.3 V -4.4 V 18.6 VNow you have a nucleus with 7 protons, placed at x = 6.5 Angstroms. What what TWO values of x (along the x-axis) will the total electrostatic potential V be equal to zero? 1.08 Angstroms and -0.81 Angstroms -0.54 Angstroms and 0.57 Angstroms 0.54 Angstroms and -0.57 Angstroms -1.08 Angstroms and 0.81 Angstroms
- I have placed an electron at the origin. The grid spacing is 1 Angstrom per small square. Now place an atomic nucleus with 13 protons on positive x-axis, at x = 4.2 Angstroms. How much work did it take you to bring this nucleus in from 1 m away? 53.4 eV 35.6 eV 44.5 eV 26.7 eVA thin circular disc of radius a has a total charge Q uniformly distributed over it. It lies in the x - y plane, centered on the origin. The charge density on the disc is p(F) = e ng² 8(2') for x2 + y2 ≤a² and 0 elsewhere. Calculate (a) the electrostatic potential and (b) the electric field at a general point z on the positive z axis.Now you have a nucleus with 5 protons at x = 5.3 Angstroms on the x-axis. What is the value of the electrostatic potential V at a point on the positive y-axis, at y = 2.9 Angstroms? A 11.9 V B 3.5 V C 6.9 V D -5.0 V