Two identical tiny spheres of mass m =2g and charge q hang from a non-conducting strings,...

Physics II In figure two tiny conducting balls of identical mass m and identical charge q...

Physics II In figure two tiny conducting balls of identical mass m and identical charge q hang from nonconducting threads of length L. Assume that θ is so small that tan θ can be replaced by its approximate equal, sin θ. Find the magnitude of q in terms of the given variables, using ε0 and g if necessary. If L = 170 cm, m = 11 g, and x = 4.2 cm,

Two identical small, charged spheres, each having a mass of 30 g, hang in equilibrium as...

Two identical small, charged spheres, each having a mass of 30 g, hang in equilibrium as shown in the figure. The length L of each string is 0.3 m, and the angle theta is 50. Find the magnitude of the charge on each sphere in (nC).(ke= 9*109 N.m2/C2)

Two identical small, charged spheres, each having a mass of 30 g, hang in equilibrium as...

Two identical small, charged spheres, each having a mass of 30 g, hang in equilibrium as shown in the figure. The length Lof each string is 0.7 m, and the angle theta is 50. Find the magnitude of the charge on each sphere in (nC).(ke=9*109N.m2/C2)

3.2 A sphere of mass m and with charge q, hanging on a non-conducting thread of...

3.2 A sphere of mass m and with charge q, hanging on a non-conducting thread of length l, rotates around the vertical axis. The filament thereby forms an angle with the vertical axis. Which is the rotational period of the ball and the tension force of the thread when another resting charge q is in the suspension point of the first charge? Thank you so much the help!

1-The figure below shows two identical (and small) conducting spheres connected to each other by a...

1-The figure below shows two identical (and small) conducting spheres connected to each other by a string of length L = 3.0 meters. Presently the charge on each small sphere is Q = +0.4 mC, and the string will break when the tension in the string equals or exceeds 1000N. A charge q is now placed on the small sphere on the right. If the string connecting the two spheres is conducting, determine the minimum value of q so that...

Two small metallic spheres, each of mass = 0.214g, are suspended as pendulums by light strings...

Two small metallic spheres, each of mass = 0.214g, are suspended as pendulums by light strings of length L as shown in the figure below. The spheres are given the same electric charge of 6.8 nC, and they come to equilibrium when each string is at an angle of ? = 5.30

Two metal spheres of identical mass m = 3.00 g are suspended by light strings 0.500...

Two metal spheres of identical mass m = 3.00 g are suspended by light strings 0.500 m in length. The left-hand sphere carries a charge of 0.865 µC, and the right-hand sphere carries a charge of 1.41 µC. What is the equilibrium separation between the centers of the two spheres?

Two metal spheres of identical mass m = 4.40 g are suspended by light strings 0.500...

Two metal spheres of identical mass m = 4.40 g are suspended by light strings 0.500 m in length. The left-hand sphere carries a charge of 0.745 µC, and the right-hand sphere carries a charge of 1.47 µC. What is the equilibrium separation between the centers of the two spheres?

Two identical 7.10-g metal spheres (small enough to be treated as particles) are hung from separate...

Two identical 7.10-g metal spheres (small enough to be treated as particles) are hung from separate 600-mm strings attached to the same nail in a ceiling. Surplus electrons are added to each sphere, and then the spheres are brought in contact with each other and released. Their equilibrium position is such that each string makes a 11.0 degree angle with the vertical. Part A: How many surplus electrons are on each sphere?

(HW02-21.63) Two small spheres with mass m = 14.0 g are hung by silk threads of...

(HW02-21.63) Two small spheres with mass m = 14.0 g are hung by silk threads of length L = 1.16 m from a common point (Figure 1). When the spheres are given equal charges, so that q1=q2=q, each thread hangs at an angle ? = 20.0 ? from the vertical. A) Find the magnitude of q.