T3-1: The 1.6-Mg space capsule shown is undergoing torque free motion. The radius of gyration about an axis passing through the axis of symmetry of the capsule is k, 1.2 m, and about any transver...
T3-1: The 1.6-Mg space capsule shown is undergoing torque free motion. The radius of gyration about an axis passing through the axis of symmetry of the capsule is k, 1.2 m, and about any transverse axis passing through the center of mass G, kt 1.8. If the capsule has a known steady-state precession rate ψ of two revolutions per hour about the axis as drawn, determine the roll rate ф, the spin rate Ω_ωι, and the angular momentum vector. Then, state whether 20° the precession is direct or retrograde. 6 pts) vith Microsoft Edge- the fast, new browser built for Windows 10
T3-1: The 1.6-Mg space capsule shown is undergoing torque free motion. The radius of gyration about an axis passing through the axis of symmetry of the capsule is k, 1.2 m, and about any transverse axis passing through the center of mass G, kt 1.8. If the capsule has a known steady-state precession rate ψ of two revolutions per hour about the axis as drawn, determine the roll rate ф, the spin rate Ω_ωι, and the angular momentum vector. Then, state whether 20° the precession is direct or retrograde. 6 pts) vith Microsoft Edge- the fast, new browser built for Windows 10