A 2.00 nC charge is placed on the x-axis at x = -3.00 cm, another 2.00 nC charge is placed on the x-axis at x = 3.00 cm, and a third 2.00 nC charge is placed on the y-axis at y = 3.00 cm. What is the potential at the origin? O 2700 V O 3600 V O 5400 V O 1800 V O 108 V
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- An air-filled capacitor consists of two parallel plates, each with an area of 7.60 cm2, separated by a distance of 1.40 mm. A 25.0-V potential difference is applied to these plates. (a) Calculate the electric field between the plates. kV/m (b) Calculate the surface charge density. nC/m2 (c) Calculate the capacitance. pF (d) Calculate the charge on each plate. pCE, (V/m) 200 100 x (m) 1 2 3 in the figure provided, the potential at the origin is -60.0 V. What is the potential at x = 3 m? O 90 V O -310 V О -90 V O -560 VThe potential in a region between x = 0 and x = 6.00 m is V = a + bx, where a = 15.8 V and b = -6.70 V/m. (a) Determine the potential at x = 0. V Determine the potential at x = 3.00 m. V Determine the potential at x = 6.00 m. V (b) Determine the magnitude and direction of the electric field at x = 0. V/m magnitude direction |---Select--- ✓ Determine the magnitude and direction of the electric field at x = 3.00 m. magnitude V/m direction ---Select--- ✓ Determine the magnitude and direction of the electric field at x = 6.00 m. magnitude V/m direction --Select--- ✓
- The potential in a region between x = 0 and x = 6.00 m is V = a + bx, where a = 20.0 V and b = -6.50 V/m. (a) Determine the potential at x = 0. V Determine the potential at x = 3.00 m. Determine the potential at x = 6.00 m. V (b) Determine the magnitude and direction of the electric field at x = 0. V/m magnitude direction ---Select--- Determine the magnitude and direction of the electric field at x = 3.00 m. magnitude V/m direction ---Select--- O Determine the magnitude and direction of the electric field at x = 6.00 m. magnitude V/m direction --Select---The figure shows an object with positive charge and some equipotential surfaces (the dashed lines) A, B, C and D generated by the charge. What are the possible potential values of those surfaces? O A=189 V, B = 540 V, C = 933 V and D 1580 V O A=540 V; B = 333 V; C = 2500V and D = 198 V O A1580, B = 970 V, C = 540 V and D = 189 V O A = 2500 V; B = 100 V; C = 900; D = 390 V O None of the choices is correct.An air-filled capacitor consists of two parallel plates, each with an area of 7.60 cm2, separated by a distance of 1.90 mm. A 15.0-V potential difference is applied to these plates. (a) Calculate the electric field between the plates.kV/m(b) Calculate the surface charge density.nC/m2(c) Calculate the capacitance.pF(d) Calculate the charge on each plate.pC
- Calculate the potential difference between points a and b () in FigureA lightning storm approaches an area where the electric potential from the cloud to the ground is 1.5 (10)' v. The distance to the ground is 50 meters. A discharge (a lightning strike) delivers 20 C of charge to the ground. How much energy is contained in the discharge? O 3 (10)8 ) O 7.5(10)5 J O 3(10)5J O 1.5(10)10)The potential in a région between x = 0 and x = 6.00 m is V = a + bx, where a = 20.0 V and b = -6.50 V/m. (a) Determine the potential at x = 0. V Determine the potential at x = 3.00 m. V Determine the potential at x = 6.00 m. V (b) Determine the magnitude and direction of the electric field at x = 0. magnitude V/m direction ---Select--- C Determine the magnitude and direction of the electric field at x = 3.00 m. magnitude V/m direction ---Select--- Determine the magnitude and direction of the electric field at x = 6.00 m. magnitude V/m direction ---Select---
- Two parallel conducting plates are separated by a distance d = 10.8 cm. Plate B, which is at a higher potential has a value of 620 V. The potential at x = 7.50 cm from the plate B is 79.7 V. See diagram below. (a) What is the potential of plate A? (V)The electric potential at a certain point in space is 12 V. What is the electric potential energy of a -3.0 μC charge placed at that point? O -4 µJ O +4 µJ O zero µJ O -36 J O +36 µJAn electrostatic paint sprayer has a 0.100 m diameter metal sphere at a potential of 15.0 kV that repels paint droplets onto a grounded object. (a) What charge is on the sphere? (b) What charge must a 0.200 mg drop of paint have to arrive at the object with a speed of 10.0 m/s? Please answer in terms of C