A hollow ball with radius R = 2 cm has a charge of -2 nC spread...

A hollow ball with radius R = 2 cm has a charge of -2 nC spread...

A hollow ball with radius R = 2 cm has a charge of -2 nC spread uniformly over its surface (see the figure). The center of the ball is at P1 = <-1, 0, 0> cm. A point charge of 6 nC is located at P3 = <7, 0, 0> cm. What is the net electric field at location P2 = <0, 4, 0> cm? At a particular instant an electron is at location P2. What is the net electric...

A) A very long hollow cylinder has a 15 cm radius and has positive charge spread...

A) A very long hollow cylinder has a 15 cm radius and has positive charge spread evenly over its surface, amounting to a linear charge density of 7 nC/m. Apply Gauss's Law to determine the electric field at r =20 cm away from the center, in units of N/C. As usual, do not include the unit in your answer. B) A very long hollow cylinder has a 15 cm radius and has positive charge spread evenly over its surface, amounting...

A thin ball shell is shaped like a hollow ball with a radius of 42.8 cm....

A thin ball shell is shaped like a hollow ball with a radius of 42.8 cm. The material is a conductor with charge 0.8 nC A point charge of -5.4 nC is placed in the center of the ball. How many N / C is the electric field just outside the ball? Remember positive is outwards I did this: got Total charge Qencloced = -4.6*10^-9 C Found the field E=(Qencloced/Epsilon) divided by 4*pi*speed squared Got 225.80 N/C. The answer in...

15. A solid conducting steel sphere of radius Rball= 10.0 cm is concentric with a hollow,...

15. A solid conducting steel sphere of radius Rball= 10.0 cm is concentric with a hollow, uniformly charged, nonconducting spherical shell of plastic with an inner radius Rinner = 20.0 cm and outer radius Router = 30.0 cm. The steel sphere has net charge qball = 40.0 nC, while the spherical shell has net charge qshell = -50.0 nC. Determine the magnitude of the electric field at the following distances from the center:(a) r = 5.00 cm. (b) r =...

A -4.00 nC point charge is at the origin, and a second +8.00 nC point charge...

A -4.00 nC point charge is at the origin, and a second +8.00 nC point charge is on the x-axis at x = 60 cm. Find the net electric force that the two charges would exert on a proton placed at x = 30cm? At what location would the net electric field due to the two charges be zero?

A ball with a radius of 20 cm is uniformly charged at 80 nC. a. Find...

A ball with a radius of 20 cm is uniformly charged at 80 nC. a. Find the volume charge density of the ball (C/m³). b. Find the amount of charge surrounding the spheres with a radius of 5, 10 and 20 cm, respectively. c. Find the field strengths at 5, 10 and 20 cm from the center of the ball.

A charge of 7 nC is located at (3, 0) cm, and a charge of 8...

A charge of 7 nC is located at (3, 0) cm, and a charge of 8 nC is located at (0,3) cm. What is the magnitude of the Electric Field at the origin in N/C?

2. An object with charge of -54.0 nC is placed 11.2 cm above the origin on...

2. An object with charge of -54.0 nC is placed 11.2 cm above the origin on the +y-axis. A second object with charge of +42.0 nC is placed on the +x-axis 6.60 cm to the right of the origin. a. Find the magnitude and direction of the electric field at the origin. Q1 = -54.0 nC 11.2 cm Q2 = +42.0 nC 6.60 cm       b. Where would you place a -12.0 nC charged object to make the electric field...

A. (multiple choice) A 50.0 nC charge is located 40.0 cm from a -30.0 nC charge....

A. (multiple choice) A 50.0 nC charge is located 40.0 cm from a -30.0 nC charge. What is the direction of the force exerted on the negative charge by the positive charge? 1. left 2. right 3. up 4. down b. (multiple choice) For the same two charges as in question A, what is the magnitude of the force exerted on one charge by the other? 1. 1.5 N 2. 3.75 x 10^-3 N 3. 1.25 x 10^-4 N 4....

A hollow, spherical, ideal insulator (R=0.075m) has a net charge of +3.75μC, with the charge is...

A hollow, spherical, ideal insulator (R=0.075m) has a net charge of +3.75μC, with the charge is distributed uniformly throughout its volume A- Calculate the total electric flux though a “Gaussian” sphere (with radius r=0.065m) centered on the center of the charged sphere. B- Find the magnitude and direction of the electric field at a point, r=0.115m, directly below the center of the sphere.