College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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- Two spherical conductors are separated by a distance much larger than either of their radii. Sphere A has a radius of 26.5 cm and a net charge of –68.3 nC, whereas sphere B, which is initially neutral, has a radius of 89.4 cm. The two spheres are then connected by a thin metal wire. What is the charge on sphere B after equilibrium has been reached? charge on sphere B: nCarrow_forwardParticle A of charge 3.50 ✕ 10−4 C is at the origin, particle B of charge −6.20 ✕ 10−4 C is at (3.64 m, 0) and particle C of charge 1.50 ✕ 10−4 C is at (0, 3.62 m). (a) What is the x-component of the electric force exerted by A on C? (b) What is the y-component of the force exerted by A on C? (c) Find the magnitude of the force exerted by B on C. (d) Calculate the x-component of the force exerted by B on C. (e) Calculate the y-component of the force exerted by B on C. (f) Sum the two x-components to obtain the resultant x-component of the electric force acting on C. (g) Repeat part (f) for the y-component. (h) Find the magnitude and direction of the resultant electric force acting on C.arrow_forwardThe question is in the figurearrow_forward
- In the figure particles 2 and 4, of charge -e, are fixed in place on a y axis, at y2 = -8.06 cm and y4 = 4.03 cm. Particles 1 and 3, of charge - e, can be moved along the x axis. Particle 5, of charge +e, is fixed at the origin. Initially particle 1 is at x₁ = -8.06 cm and particle 3 is at x3 = 8.06 cm. (a) To what x value must particle 1 be moved to rotate the direction of the net electric force net on particle 5 by 30* (b) With particle 1 fixed at its new position, to what x value must you move particle 3 to rotate back to its original counterclockwise? direction? (a) Number i (b) Number i Units Units m m 3arrow_forwardThree charged marbles are glued to a nonconducting surface and are placed in the diagram as shown. The charges of each marble are q1 = 6.20 µC, q2 = 1.01 µC, and q3 = −2.14 µC. Marble q1 is a distance r1 = 3.00 cm to the left of the marble q2, while marble q3 is a distance r3 = 2.00 cm to the right of the marble q2, as shown. Calculate the magnitude of the electric field a distance r' = 1.00 cm to the left of the center marble. What is the electric field due to each individual marble? How do you find the total or "net" electric field when you have several electric fields? Another marble is placed 1 cm to the left of the middle marble. If this new marble has a charge of −3.62 µC, calculate magnitude and direction of the force on it.arrow_forwardTwo red blood cells each have a mass of 9.05 x 10-¹4 kg and carry a negative charge spread uniformly over their surfaces. The repulsion arising from the excess charge prevents the cells from clumping together. One cell carries -3.00 pC and the other -2.90 pC, and each cell can be modeled as a sphere 3.75 x 10-6 m in radius. If the red blood cells start very far apart and move directly toward each other with the same speed, what initial speed would each need so that they get close enough to just barely touch? Assume that there is no viscous drag from any of the surrounding liquid. initial speed: What is the maximum acceleration of the cells as they move toward each other and just barely touch? maximum acceleration: m/s m/s²arrow_forward
- 10 C of charge are placed on a spherical conducting shell. A particle with a charge of -3C is placed at the center of the cavity. The net charge on the outer surface of the shell is: O-7C O -3 C O OC O +3 C O +7Carrow_forwardIn the figure particles 2 and 4, of charge -e, are fixed in place on a y axis, at y2 = -8.62 cm and y4 = 4.31 cm. Particles 1 and 3, of charge -e, can be moved along the x axis. Particle 5, of charge +e, is fixed at the origin. Initially particle 1 is at x1 = -8.62 cm and particle 3 is at x3 = 8.62 cm. (a) To what x value must particle 1 be moved to rotate the direction of the net electric force net on particle 5 by 30 ° counterclockwise? (b) With particle 1 fixed at its new position, to what x value must you move particle 3 to rotate back to its original direction?arrow_forwardThree particles are held in place along the X-axis. One particle has a charge of 25 C and is located at the origin. Another particle (with a charge of 30 uC) is located at x=10 cm. The last charge is located at ×=-15 cm. What must be the amount of charge on the third particle, if the charge located at the origin is in equilibrium (i.e. all the forces cancel)?arrow_forward
- As stated in the picarrow_forwardA solid non-conducting sphere of radius 3 cm has a charge of +24 micro(u)C. A conducting spherical shell of inner radius 6 cm and outer radius 10 cm is concentric with the solid non-conducting sphere and carries a charge of -10 micro C. What is the force on an electron located midway in the space between the shell and the solid sphere?arrow_forwardIn the figure particles 2 and 4, of charge -e, are fixed in place on a y axis, at y2 = -8.76 cm and y4 = 4.38 cm. Particles 1 and 3, of charge - e, can be moved along the x axis. Particle 5, of charge +e, is fixed at the origin. Initially particle 1 is at x₁ = -8.76 cm and particle 3 is at x=8.76 cm. (a) To what x value must particle 1 be moved to rotate the direction of the net electric force F net on particle 5 by 30* counterclockwise? (b) With particle 1 fixed at its new position, to what x value must you move particle 3 to rotate back to its original direction? (a) Number (b) Number Units Units 00arrow_forward
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