College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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- In a certain region of space, the electric potential varies along an x-axis as shown in the figure below. The scale of the vertical axis is set by V, = 8000 V. Find the x-component of the electric field in the interval de. V i - m -5 b Save for Later V₂ 0 d g 5 x (m) Submit Answerarrow_forwardThe two charges in the figure below are separated by d = 1.50 cm. (Let q1 = -17 nC and q2 = 25.5 nC.) A d (60.0° B d (a) Find the electric potential at point A. kV (b) Find the electric potential at point B, which is halfway between the charges. kVarrow_forwardA metallic sphere of radius 10 cm has a charge of 5μC. What is the electric potential at 5 cmarrow_forward
- An isolated charged soap bubble of radius Ro = 4.65 cm is at a potential of V= 283.0 volts. If the bubble shrinks to a ridios that is 39.0% of the initial radius, by how much does its electrostatic potential energy U change? Assume that the charge on the bubble is spread evenly over the surface, and that the total charge on the bubble remains constant. AU = Upd- Unl = TOOLS x10arrow_forwardA 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)arrow_forwardAt locations A and B, the electric potential has the values VA = 1.59 V and VR = 5.87 V, respectively. A proton released from rest at one of these locations passes through the other location. From which location was the proton released? A В What is its speed when it passes through the other location? speed: m/s Repeat the same question, but this time for an electron. From which location was the electron released? A B What is its speed when it passes through the other location? speed: m/sarrow_forward
- Answer the following question given the position and charge of three charged objects. q1 = 2nC (-2,3), q2 = -5nC (1,3), and q3 = -2nC (0,0). What is the electric potential at (5,5)? a. -10.14 V b. 12.13 V c. -1.53 V d. -5.89 V Please provide complete solution. Thank you!arrow_forwardThe math form for an electric potential is 3 x?y + 2 y?xz. What is the corresponding electric field at the position (x, y, z) = (1.0, 2.0, -1.0) m?arrow_forwardQ1. What is the electric potential of a dipole on the y-axis at large distances? 1 qd 1 qd (c) V = 2nɛ, r? 1 qd 4πε r (a) V = 0 (b) V = (d) V = 2πε, r y Q2. Find the monopole term in the multi-pole expansion of the electric potential on the z- axis for a flat circular charged disk of radius R and charge density o (r,q) = krʻ cosʻ q, where k is a constant and r, q are polar coordinates with the origin at the disk's centre.arrow_forward
- I'm having trouble finding the solution to this problem. This problem is based off the textbook "Physics: Principles with Applications, 7th edition by Douglas C. Giancoli" chapter 16.arrow_forwardSix negative point charges and two positive point charges are arranged in a circle as shown in the figure. The charges have equal magnitude. The magnitude of the electric potential generated by each charge is 120 V at the origin. What is the net electric potential generated by all the charges at the origin O? 90 y -Q Fig. A Answer: Net potential Answer: Net potential Volts Voltsarrow_forwardWhat is the electric potential at the dot in the figure? The charge on Q1 is 4.00 nC, the charge on Q2 is 5.00 nC and the charge on Q3 is 3.00 nC. The distance between charge Q1 and charge Q2 is 7.00 cm. The distance between Q2 and Q3 is 2.00 cm. 2.80×103 V 2.42×103 V 2.18×103 V 1.00×103 Varrow_forward
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