Concept used :- Newton's laws of motion and Coulomb's law for force between two charges.
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Two small metallic spheres, each of mass m= 0.25 g, are suspended as pendulums by light...
Two small metallic spheres, each of mass m = 0.25 g, are suspended as pendulums by light strings from a common point as shown in the figure below. The spheres are given the same electric charge, and it is found that they come to equilibrium when each string is at an angle of θ = 6.1° with the vertical. If each string has length L = 39.0 cm, what is the magnitude of the charge on each sphere? Give answer...
Two small metallic spheres, each of mass m-0.25 g, are suspended as pendulums by light strings from a common point as shown in the figure below. The spheres are given the same electric charge, and it is found that they come to equilibrium when each string is at an angle of θ-4.80 with the vertical. If each string has length L 38.0 cm, what is the magnitude of the charge on each sphere?
Two small metallic spheres, each of mass m = 0.25 g, are suspended as pendulums by light strings from a common point as shown in the figure below. The spheres are given the same electric charge, and it is found that they come to equilibrium when each string is at an angle of θ = 4.8° with the vertical. If each string has length L = 38.0 cm, what is the magnitude of the charge on each sphere?
Two small metallic spheres, each of mass m = 0.25 g, are suspended as pendulums by light strings from a common point as shown in the figure below. The spheres are given the same electric charge, and it is found that they come to equilibrium when each string is at an angle of θ = 7.7° with the vertical. If each string has length L = 23.0 cm, what is the magnitude of the charge on each sphere?
Two small metallic spheres, each of mass m-0.40 g, are suspended as pendulums by light strings from a common point as shown in the figure below. The spheres are given the same electric charge, and it is found that they come to equilibrium when each string is at an angle of θ = 7.5° with the vertical. If each string has length L 28.0 cm, what is the magnitude of the charge on each sphere? nC
Two small metallic spheres, each of mass m = 0.35 g, are suspended as pendulums by light strings from a common point as shown in the figure below. The spheres are given the same electric charge, and it is found that they come to equilibrium when each string is at an angle of θ = 4.4° with the vertical. If each string has length L = 28.0 cm, what is the magnitude of the charge on each sphere?
Two small metallic spheres, each of mass m = 0.50 g, are suspended as pendulums by light strings from a common point as shown in the figure below. The spheres are given the same electric charge, and it is found that they come to equilibrium when each string is at an angle of 3.9° with the vertical. If each string has length L = 28.0 cm, what is the magnitude of the charge on each sphere? in Need Help? Waich...
Two small metallic spheres, each of mass m = 0.45 g, are suspended as pendulums by light strings from a common point. The spheres are given the same electric charge, and it is found that they come to equilibrium when each string is at an angle of θ = 3.3° with the vertical. If each string has length L = 36.0 cm, what is the magnitude of the charge on each sphere?
Two small metallic spheres, each of mass 0.20 g, are suspended as pendulums by light strings from a common point as shown in the figure below. The spheres are given the same electric charge, and it is found that they come to equilibrium when each string is at an angle of 5.0° with the vertical. If each string is 30.0 cm long, what is the magnitude of the charge on each sphere?
Two small metallic spheres, each of mass m 0.40 g, are suspended as pendulums by light strings from a common point as shown in the figure below. The spheres are given the same electric charge, and it is found that they come to equilibrium when each string is at an angle of θ 7.5° with the vertical. If each string has length L = 28.0 cm, what is t magnitude of the charge on each sphere? 0.0186e-8 X Your response...