Two conducting balls hang from the the same point on the ceiling on insulating 1.5 m...
A couple of small insulating balls are attached by separate .25 m threads. The balls are identical and the threads are attached to a common point on the ceiling. The mass of each ball is .00080 kg. Initially the balls are uncharged and hang straight down. They are then given the same positive charges and, as a result, spread apart with an angle of 36o between the threads. a. Determine the distance between the two balls after they are charged....
A couple of small insulating balls are attached by separate 0.25 m threads. The balls are identical and the threads are attached to a common point on the ceiling. The mass of each ball is .00080 kg. Initially the balls are uncharged and hang straight down. They are then given the same positive charges and, as a result, spread apart with an angle of 36o between the threads. a. Determine the distance between the two balls after they are charged....
Two equally charged insulating balls each weigh 0.50 g and hang from a common point by identical threads 40 cm long. The balls repel each other so that the separation between their centers is 7.0 cm. What is the magnitude of the charge on each ball?
Two equally charged insulating balls each weigh 0.18 g and hang from a common point by identical threads 45 cm long. The balls repel each other so that the separation between their centers is 6.4 cm. What is the magnitude of the charge on each ball?
Two equally charged insulating balls each weigh 0.34 g and hang from a common point by identical threads 35 cm long. The balls repel each other so that the separation between their centers is 6.0 cm. What is the magnitude of the charge on each ball?
Two equally charged insulating balls each weigh 0.38 g and hang from a common point by identical threads 30 cm long. The balls repel each other so that the separation between their centers is 6.0 cm. What is the magnitude of the charge on each ball?
Two equally charged insulating balls each weigh 0.10 g and hang from a common point by identical threads 30 cm long. The balls repel each other so that the separation between their centers is 6.2 cm. What is the magnitude of the charge on each ball?
In the 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. If L = 180 cm, m = 15 g, and x = 7.2 cm, what is the magnitude of q?
Question 21 (6 points) m 2012 m102 Two conducting balls of equal masses m - 200 g are hanging on non-conducting strings of equal length L - 30 cm. When uncharged, the balls are touching each other. When a charge Qis shared equally between the balls, they separate by an angle - 30 All parts are of the same point value of 2. (a) The force of tension that develops in each string is (b) The force of electrostatic repulsion...
Two small identical clay balls of mass m are suspended from the same point by strings of length L. One of them is pulled sideways and up such that its string makes an angle ? as shown. After being released from rest, it collides with the other ball, and they remain stuck together after the collision. How high h will the two balls rise after the collision? Enter your symbolic answer as a function of m, L, g, and theta...