[填空题]
You are designing a clutch assembly which cob f)u.5fm;hehe mvih.odtuim3j/+5 ;nsists of two cylhj qk6 .*jgvwx(7zp*16mbv l iindrical plates, of masx6bpj7ghql z6m*. vv i1kj(* ws $M_{\mathrm{A}}=6.0$ $\mathrm{kg}$ and $M_{\mathrm{B}}=9.0$ $\mathrm{kg}$ with equal radii R=0.60 $\mathrm{m}$ They are initially separated (Fig. 8–57). Plate $M_{\mathrm{A}}$ is accelerated from rest to an angular velocity $\omega_1=7.2$ $\mathrm{rad/s}$ in time $\Delta t=2.0$ s Calculate (a) the angular momentum of $M_{\mathrm{A}}$ $kg \cdot m^2$ (b) the torque required to have accelerated $M_{\mathrm{A}}$ from rest to $\omega_{1}$ $m \cdot N$ (c) Plate $M_{\mathrm{B}}$ initially at rest but free to rotate without friction, is allowed to fall vertically (or pushed by a spring), so it is in firm contact with plate $M_{\mathrm{A}}$ (their contact surfaces are high-friction). Before contact, $M_{\mathrm{A}}$ was rotating at constant $\omega_{1}$ After contact, at what constant angular velocity $\omega_{s}$ do the two plates rotate? $rad/s$
Post time 2025-2-18 20:00:22
