001 10.0 points An apparatus like the one Cavendish used to find G has large lead balls that are 5.1 kg in mass and small ones that are 0.038 kg. The center of a large ball is separated by 0.06 m fro...
001 10.0 points An apparatus like the one Cavendish used to find G has large lead balls that are 5.1 kg in mass and small ones that are 0.038 kg. The center of a large ball is separated by 0.06 m from the center of a small ball KLight Mirror source SN The Cavendish apparatus for measuring G. As the small spheres of mass m are attracted to the large spheres of mass M, the rod between the two small spheres rotates through a smal angle. Find the magnitude of the gravitational force between the masses if the value of the universal gravitational constant is 6.67259 x 10-11 Nin2/kg 2 Answer in units of N.
001 10.0 points An apparatus like the one Cavendish used to find G has large lead balls that are 5.1 kg in mass and small ones that are 0.038 kg. The center of a large ball is separated by 0.06 m from the center of a small ball KLight Mirror source SN The Cavendish apparatus for measuring G. As the small spheres of mass m are attracted to the large spheres of mass M, the rod between the two small spheres rotates through a smal angle. Find the magnitude of the gravitational force between the masses if the value of the universal gravitational constant is 6.67259 x 10-11 Nin2/kg 2 Answer in units of N.