Two parallel plates carry charge of equal magnitude but opposite sign, and are separated by a distance of d = 16.0 cm. Each plate has a uniform surface charge density of ± ? = 40.0 nC/m2. (Please enter all answers using at least four significant figures.) (b.) If a proton ( q = e = 1.602 ✕ 10-19 C; mp = 1.673 ✕ 10-27 kg) is released from rest at the positive plate, what potential difference does it move through in reaching the negative plate? Delta V = -722.84 Speed of proton = 372388.30 m/s (e.) Determine the magnitude of the acceleration of the proton. Recall: vxf2 = vxi2 + 2ax(xf - xi) (f.) Using its acceleration, determine the magnitude of the force on the proton. (g.) From the force on the proton, find the magnitude of the electric field.
Two parallel plates carry charge of equal magnitude but opposite sign, and are separated by a distance of d = 16.0 cm. Each plate has a uniform surface charge density of ± ? = 40.0 nC/m2. (Please enter all answers using at least four significant figures.)
(b.) If a proton ( q = e = 1.602 ✕ 10-19 C; mp = 1.673 ✕ 10-27 kg) is released from rest at the positive plate, what potential difference does it move through in reaching the negative plate?
Delta V = -722.84
Speed of proton = 372388.30 m/s
(e.) Determine the magnitude of the acceleration of the proton. Recall: vxf2 = vxi2 + 2ax(xf - xi)
(f.) Using its acceleration, determine the magnitude of the force on the proton.
(g.) From the force on the proton, find the magnitude of the electric field.
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