V(V) In the right figure, the top panel of graph shows the potential V as a function of position x in three regions I, II, and III. Accordingly, four parallel plates, A through D, can be setup to realized the distribution of potential, as schematically drawn in the bottom panel of the figure. The unit of the distance is cm, and the unit of potential is V. 10 II III 4 8 x(cm) -5- The potential on plate B is -10- V Submit Answer Tries 0/2 The magnitude (i.e. absolute value) of the electric field in region I is II III V/m 2 x(cm) Submit Answer Tries 0/2 A particle carries -18e charge (i.e. q = А В С D -2.88x10-18 C) and is free to move in 2.

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V(V) In the right figure, the top panel of graph shows the potential V as a function of position x in three regions I, II, and III. Accordingly, four parallel plates, A through D, can be setup to realized the distribution of potential, as schematically drawn in the bottom panel of the figure. The unit of the distance is cm, and the unit of potential is V. 10 ↑ II III 5. 2. 6. 8 x(cm) -5- The potential on plate B is -10- V Submit Answer Tries 0/2 The magnitude (i.e. absolute value) of the electric field in region I is I II II V/m 4 x(cm Submit Answer Tries 0/2 A particle carries -18e charge (i.e. q = В С C. -2.88x10-18 region III. Its initial velocity is zero at position x = 8 cm. When it leaves region III, how much is the kinetic energy of this particle in eV (electron-volt)? C) and is free to move in eV