College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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- Two flat conductors are placed with their in- ner faces separated by 16 mm. If the surface charge density on inner face A is 105 pC/m and on inner face B is -105 pC/m², calculate the electric po- tential difference AV VA VB- Use €0 = 8.85419 x 10¬12 c² /Nm². Answer in units of V. %3Darrow_forwardThe following charges are located inside a submarine: 3.10 μC, -9.00 μC, 27.0 μC, and -61 µC. (a) Calculate the net electric flux through the hull of the submarine. N.m²/c (b) Is the number of electric field lines leaving the submarine greater than, equal to, or less than the number entering it? greater than equal to less thanarrow_forwardA thin, square, conducting plate 47.0 cm on a side lies in the xy plane. A total charge of 3.50 10-8 C is placed on the plate. You may assume the charge density is uniform. (a) Find the charge density on each face of the plate. C/m2(b) Find the electric field just above the plate. magnitude N/C direction (c) Find the electric field just below the plate. magnitude N/C directionarrow_forward
- On the x-y plane, a point charge Q = –4.35E-6 C is placed at the origin (0.00 m, 0.00m). The electric field at (x,y) = (2.40 m, 3.20 m) is measured to be Q = Ex + Ey . What is the electric field's y component Ey (in N/C)?arrow_forwardA charge distribution creates the following electric field throughout all space: E(r, 0, q) = (3/r) (r hat) + 2 sin cos sin 0(theta hat) + sin cos p (phi hat). Given this electric field, calculate the charge density at location (r, 0, p) = (ab.c).arrow_forwardThe electric field at a distance of 0.154 m from the surface of an insulating solid sphere of radius 0.385 m is 1970 N/C. Assuming that the charge on the sphere is uniformly distributed, a) what is the charge density within it? b) Calculate the electric field inside the sphere at a distance of 0.150 m from the center.arrow_forward
- Consider the following figure. (If you need to use co or -o, enter INFINITY or -INFINITY, respectively.) (a) Find the total electric field in N/C at x = 8.00 cm in part (b) of the figure above given that q = 1.00 uC. N/C (b) Find the total electric field in N/C at x = 11.50 cm in part (b) of the figure above. (Include the sign of the value in your answer.) N/C (c) If the charges are allowed to move and eventually be brought to rest by friction, what will the final charge configuration be? (That is, will there be a single charge, double charge, etc., and what will its value(s) be? Use the following as necessary: q.)arrow_forwardThe following charges are located inside a submarine: 5.10 μC, -9.00 μC, 27.0 μC, and -85 µC. (a) Calculate the net electric flux through the hull of the submarine. N·m²/c (b) Is the number of electric field lines leaving the submarine greater than, equal to, or less than the number entering it? greater than O equal to O less than Need Help? Read It Master Itarrow_forwardGiven that q1 = 6.20 nC, q2 = -1.8 nC, a = 9.80 cm and b = 2.00 cm. What is the magntude of the electric field at point p? 3.47×104 N/C 4.09×104 N/C 1.73×104 N/C 4.63×104 N/Carrow_forward
- Use Gauss's law to find the electric field at the field point in the following case. The distance between the field point and the surface of the conductor is d. A semi-infinitely large conductor with surface charge density o. Field point d х Conductorarrow_forwardIf the electric field strength in air exceeds 3.0 ✕ 106 N/C, the air becomes a conductor. Using this fact, determine the maximum amount of charge that can be carried by a metal sphere 3.9 m in radius. _________ Carrow_forwardThe following charges are located inside a submarine: 7.80 µC, −9.00 µC, 27.0 µC, and −58 µC. (a) Calculate the net electric flux through the hull of the submarine. N · m2/Carrow_forward
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