shown in the diagram: E = 400JN/C a) What is the potential difference from A to C. b) Q1= -0.80µC of mass 4.00x10-11kg travels from A to C. Q1 had 5.00x10-5) of KE (kinetic energy) as it was leaving A. During this trip, non-electrical forces do -3.00x10-5) of work on the (0,0) the B (20.0,0) cm >x origin A system. -Find the change in potential energy of the system during the travel. -Find the KE of Q1 when it arrives at C. C (8.00, -6.00 ) cm c) Considering this time that Q1 has left the region and that another point-charge Q2= -1.70nC, with mass 5.0 x 10¬13 kg, is then placed at position B and remains at B. (The uniform field E is tial difforonco from 0 ctill ont) Find

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In a certain space of uniform and constant E (electric field), we can observe point A, B and C as shown in the diagram: E = 400JN/C %3D a) What is the potential difference from A to C. b) Q1= -0.80µC of mass 4.00x10-11kg travels from A to C. Q1 had 5.00x10-5) of KE (kinetic energy) as it was leaving A. During this trip, non-electrical forces do -3.00x10-5J of work on the B (20.0,0) cm (0,0) the origin system. A -Find the change in potential energy of the system during the travel. -Find the KE of Q1 when it arrives at C. с (8.00, -6.00) сm c) Considering this time that Q1 has left the region and that another point-charge Q2= -1.70nC, with mass 5.0 × 10¬13 kg, is then placed at position B and remains at B. (The uniform field E is still present.). Find net the potential difference from A to C.