Locations A, B, and C are in a region of uniform electric field, as shown in the diagram above. Location A is at < -0.5, 0, 0> m. Location C is at < 0.4, -0.5, 0>m. In the region the electric field = <-450, 400, 0> N/C. For a path starting at C and ending at A, calculate: (a) The displacement vector AT AT.9,.5.0) V m (b) the change in electric potential: AV-605 x volts (c) the potential energy change for the system when a proton moves from C to A: AU0000000000000 joules (d) the potential energy change for the system when an electron moves from C to A: AU=-000000000000 joules
Locations A, B, and C are in a region of uniform electric field, as shown in the diagram above. Location A is at < -0.5, 0, 0> m. Location C is at < 0.4, -0.5, 0>m. In the region the electric field = <-450, 400, 0> N/C. For a path starting at C and ending at A, calculate: (a) The displacement vector AT AT.9,.5.0) V m (b) the change in electric potential: AV-605 x volts (c) the potential energy change for the system when a proton moves from C to A: AU0000000000000 joules (d) the potential energy change for the system when an electron moves from C to A: AU=-000000000000 joules
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Locations A, B, and C are in a region of uniform electric field, as shown in the diagram above. Location A is at < -0.5, 0, 0> m. Location C is at < 0.4, -0.5, 0>m. In the region the electric field = <-450, 400, 0> N/C.
For a path starting at C and ending at A, calculate:
(a) The displacement vector AT
AT = (-9,5,0)
(b) the change in electric potential:
AV = 605
X volts
(c) the potential energy change for the system when a proton moves from C to A:
AU=0000000000000 joules
A
(d) the potential energy change for the system when an electron moves from C to A:
AU-000000000000 joules
B
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