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A uniform electric field E→ = −3.3 N/Ci^ points in the negative x direction as shown in the figure. The x and y coordinates of points A, B, and C are given on the diagram (in meters). (Figure 1) Determine the differences in potential VBA = VB−VA, VCB = VC−VB, and VCA = VC−VA. Express your answers using two significant figures separated by commas. Submit Request Answer Provide Feedback Figure 1 of 1

A uniform electric field E→ = −3.3 N/Ci^ points in the negative x direction as shown in the figure. The x and y coordinates of points A, B, and C are given on the diagram (in meters). (Figure 1) Determine the differences in potential VBA = VB−VA, VCB = VC−VB, and VCA = VC−VA. Express your answers using two significant figures separated by commas. Submit Request Answer Provide Feedback Figure 1 of 1

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A uniform electric field E = 3.3 N / C i ^ points in the negative x direction as shown in the figure. The x and y coordinates of points A , B , and C are given on the diagram (in meters). (Figure 1) Determine the differences in potential V BA = V B V A , V CB = V C V B , and V CA = V C V A . Express your answers using two significant figures separated by commas. Submit Request Answer
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