Question 1 (30 MARKS)(i) to calculate net electric field Enet at a mid-point between A and B.(ii) to calculate net electric potential Vnet at a mid-point between A and B, and(iii) to calculate net electrostatic force Fnet on an electron located at a mid-point between A and B.(10 marks)(5 marks)(5 marks)20Figure 1: For Question 3.(b.) Looking at your solutions in (a.), can you say a system of charges in Figure 1 is an electric dipole? elaborate youranswer in details(4 marks)(c.) Use derived equations in (a.) to evaluate Enet, Vnet and F,net: given that d = 20 cm and Q = 1.602 nC. (6 marks)

Answered: Image /qna-images/answer/a74cffc0-7799-4cef-b7d2-adb579a1c3b4.jpg

a.) Given a system of charges in Figure 1, derive equation i) to calculate net electric field Enet at a mid-point between A and B. ii) to calculate net electric potential Vnet at a mid-point between A and B, and iii) to calculate net electrostatic force Fnet on an electron located at a mid-point between A and B. Figure 1: For Question 3. b.) Looking at your solutions in (a.), can you say a system of charges in Figure 1 is an electric dipole? elal answer in details c.) Use derived equations in (a.) to evaluate Emet, Vnet alnd Fnet: given that d = 20 cm and Q = 1.602 nC.

a.) Given a system of charges in Figure 1, derive equation i) to calculate net electric field Enet at a mid-point between A and B. ii) to calculate net electric potential Vnet at a mid-point between A and B, and iii) to calculate net electrostatic force Fnet on an electron located at a mid-point between A and B. Figure 1: For Question 3. b.) Looking at your solutions in (a.), can you say a system of charges in Figure 1 is an electric dipole? elal answer in details c.) Use derived equations in (a.) to evaluate Emet, Vnet alnd Fnet: given that d = 20 cm and Q = 1.602 nC.

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