1) a 1.0 kg mass is located at the origin of the (x, y) plane, another 1.0 kg mass is located at the point (0.12, 0), and a 2.0 kg mass is located at the point (0.06, 0.08), where the (x, y) coordinates are given in meters. the three masses are fixed relative to each other by massless rods. a) find the moment of inertia of this object about an object perpendicular to the (x, y) plane & passing through the 2.0 kg mass.
b) use the parallel axis theorem to find the moment of inertia about an axis passing through the center of mass & perpendicular to the (x, y) plane.
c) find the moment of inertia about an axis that passes through both of the 1.0 kg masses

Part a determine the magnitude of the x component of f using scalar notation. fx f x = nothing lb request answer part b determine the magnitude of the y component of f using scalar notation. fy f y = nothing lb request answer part c determine the magnitude of the z component of f using scalar notation. fz f z = nothing lb request answer provide feedback figure1 of 1a force vector acting on a ring attached to the ground is shown in the xyz space together with its x, y, and z components lying on the corresponding positive axes. the ring is located at the origin. force f is located in the first octant. f makes an angle of 60 degrees with its x component and an angle of 45 degrees with its y component. a force vector acting on a ring attached to the ground is shown in the xyz space together with its x, y, and z components lying on the corresponding positive axes. the ring is located at the origin. force f is located in the first octant. f makes an angle of 60 degrees with its x component and an angle of 45 degrees with its y component.