946. The right circular cone in Figure P9-46 has a mass of 90 kg. Determine the mass monen d this inertia about the r-axis. 400 mm 200 mm GURE P9-46

Elements Of Electromagnetics
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can you please find the solution for que no:9-46

tudinal axis of a shaft that has a mass of 100 kg and a diameter of 120 mm.
APPLIED PROBLEMS FOR SECTIONS 9–5 TO 9–7
9-46. The right circular cone in Figure P9-46 has a mass of 90 kg. Determine the mass momen of
45. A slender rod 0.6 m long rotates about an axis perpendicular to its length and 0.14 m from is
9-44. Determine the mass moment of inertia of a solid cylinder, 4 ft in diameter, about an uxis
43. Determine the mass moment of inertia and the radius of gyration about the centroidal longi
942. Determine the mass moment of inertia and the radius of gyration about the centroidal wis
center of gravity. If the rod has a mass of 8 kg, determine its mass moment of inertia abou
on the surface of the cylinder and parallel to its centroidal axial axis. The cylinder wetighs
a sphere 2 ft in diameter and weighing 64.4 Ib.
a
96.6 lb.
this axis.
inertia about the r-axis.
400 mm
200 mm
FIGURE P9-46
Transcribed Image Text:tudinal axis of a shaft that has a mass of 100 kg and a diameter of 120 mm. APPLIED PROBLEMS FOR SECTIONS 9–5 TO 9–7 9-46. The right circular cone in Figure P9-46 has a mass of 90 kg. Determine the mass momen of 45. A slender rod 0.6 m long rotates about an axis perpendicular to its length and 0.14 m from is 9-44. Determine the mass moment of inertia of a solid cylinder, 4 ft in diameter, about an uxis 43. Determine the mass moment of inertia and the radius of gyration about the centroidal longi 942. Determine the mass moment of inertia and the radius of gyration about the centroidal wis center of gravity. If the rod has a mass of 8 kg, determine its mass moment of inertia abou on the surface of the cylinder and parallel to its centroidal axial axis. The cylinder wetighs a sphere 2 ft in diameter and weighing 64.4 Ib. a 96.6 lb. this axis. inertia about the r-axis. 400 mm 200 mm FIGURE P9-46
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