You have two charged metal balls at a distance of 1.0 m. One ball has a...

Two Styrofoam balls have the same charge. Each ball has an excess of N = 108...

Two Styrofoam balls have the same charge. Each ball has an excess of N = 108 protons. The balls are initially separated by a distance, d = 1.9 m. The Coulomb constant is k = 8.988 × 109 N m2/C2. Part (a) Write an expression for the charge on one of the balls, Q, in terms of the charge on a proton e and the number of excess protons Part (b) What is the magnitude of the force between the...

Two identical small metal spheres initially carry charges 푞1and 푞2. When they’re 1.0 m apart, they...

Two identical small metal spheres initially carry charges 푞1and 푞2. When they’re 1.0 m apart, they experience a 2.5-N attractive force. Then they’re brought together so charge moves from one to the other until they have the same net charge. They’re again placed 1.0 m apart, and now they repel with a 2.5-N force. What were the original charges 푞1and 푞2?

A solid metal ball of 1 m radius is centered in and surrounded by a thick...

A solid metal ball of 1 m radius is centered in and surrounded by a thick walled spherical hollow metal ball whose inner wall radius is 8m and outer wall radius is 9m. Both balls are isolated and then additional charge is deposited on both. If the E field points outward at 3.5m from the center of the inner ball and has a value of 77.1 N/C. what is the surface charge density on the surface of the inner ball?...

A small glass bead has been charged to + 50.0 nC . A small metal ball...

A small glass bead has been charged to + 50.0 nC . A small metal ball bearing 1.50 cm above the bead feels a 1.90×10−2 N downward electric force. What is the charge on the ball bearing?

Consider two parallel charged wires situated at distance d = 18.2 m apart, one with linear...

Consider two parallel charged wires situated at distance d = 18.2 m apart, one with linear charge density λ1 = 60 C/m, the other with linear charge density λ2 = −80.2 C/m. Determine the magnitude of the force acting on an electron situated on a line, which is perpendicular to the two wires and passes through them. The electron is at a distance of r1 = 6 m from the first wire. What is the direction of vector force acting...

Two metal balls A and B of negligible radius, connected by a taut nonconducting thread of...

Two metal balls A and B of negligible radius, connected by a taut nonconducting thread of length 1.60 m, are floating at rest on Space Station Freedom between two metal bulkheads. Ball A carries charge q, and ball B carries charge 2q. Each ball is 1.06 m away from a bulkhead. (a) If the tension in the string is 3.50 N, what is the magnitude of q? (Ignore any contribution from induced charge in the bulkheads.) 22.32 Correct: Your answer...

Two metal balls A and B of negligible radius are floating at rest on Space Station...

Two metal balls A and B of negligible radius are floating at rest on Space Station Freedom between two metal bulkheads, connected by a taut nonconducting thread of length 3.00 m. Ball A carries charge q, and ball B carries charge 2q. Each ball is 1.36 m away from a bulkhead. (a) If the tension in the string is 2.55 N, what is the magnitude of q? (Ignore any contribution from induced charge in the bulkheads.) μC (b) What happens...

Two neutron stars are separated by a distance of 1.0 x 1011 m. They each have...

Two neutron stars are separated by a distance of 1.0 x 1011 m. They each have a mass of 1.0 x 1029 kg and a radius of 1.0 x 105 m. They are initially at rest with respect to each other. As measured from that rest frame, how fast are they moving when (a) their separation has decreased to one-half its initial value and (b) they are about to collide?

Two neutron stars are separated by a distance of 1.0 x 1010 m. They each have...

Two neutron stars are separated by a distance of 1.0 x 1010 m. They each have a mass of 1.0 x 1031 kg and a radius of 1.0 x 105 m. They are initially at rest with respect to each other. As measured from that rest frame, how fast are they moving when (a) their separation has decreased to one-half its initial value and (b) they are about to collide?

Two neutron stars are separated by a distance of 1.0 x 1010 m. They each have...

Two neutron stars are separated by a distance of 1.0 x 1010 m. They each have a mass of 1.0 x 1031 kg and a radius of 1.0 x 105 m. They are initially at rest with respect to each other. As measured from that rest frame, how fast are they moving when (a) their separation has decreased to one-half its initial value and (b) they are about to collide?