Which of the following integrals will give the correct numerical value of the potential difference VAB between A(3, -1, 4) and B(0, 3, -2) given the electric field in the region is Ê V/m? All coordinates are measured in meters. = 2x ax - e-² cosy ay + e¯² siny az L2x dk - L -2 e -4 cosy dy + e-Z sin(3) dz -2 2x dx - e2 cosy dy + e-2 sin(3) dz O The answer cannot be found on the other choices. -2 e cosy dy + e-Z sin(-1) dz
Which of the following integrals will give the correct numerical value of the potential difference VAB between A(3, -1, 4) and B(0, 3, -2) given the electric field in the region is Ê V/m? All coordinates are measured in meters. = 2x ax - e-² cosy ay + e¯² siny az L2x dk - L -2 e -4 cosy dy + e-Z sin(3) dz -2 2x dx - e2 cosy dy + e-2 sin(3) dz O The answer cannot be found on the other choices. -2 e cosy dy + e-Z sin(-1) dz
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Transcribed Image Text:Which of the following integrals will give the correct numerical value of the potential difference VAB between A(3, -1, 4) and B(0, 3, -2) given the electric field in the region is
V/m? All coordinates are measured in meters.
E = 2x ax - e-2 cosy ay + e-2 siny az
3
-2
2x dx -
-4
e
cosy dy +
e-2 sin(3) dz
-1
-2
L2x dx - S e²
cosy dy +
e-Z sin(3) dz
The answer cannot be found on the other choices.
3
2
2x dx
cosy dy +
e-Z sin(-1) dz
4
-
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