Re: classical physics - rod anchored to ground, rotational inertia
ok i lied--i last problem, im close to the answer but not close enough btwn a-e.
problem: child on edge of solid disk (merry goround) M(child)=40kg M(disk)=200kg r(disk)=2.5m w(disk)=2.0rad/s child moves to center, whats final angular velocity of merry go round, neglecting size of child. here i add the mass of the child and disk for I=kmr^2. K=0.5 for disk, thus I=(1/2)*(240)*(2.5)^2=750. L=Iw=750*2=1500. conserving L, changing I I'=1/2*200*2.5^2=625 L'=I'w', 1500=625*w' -> w'=2.4 [rad/s]. which is not the answer correct: 2.8 [rad/s], where am i going wrong? **note, if i didnt say above, child starts on edge of disk, @r=2.5m |
Re: classical physics - rod anchored to ground, rotational inertia
thermo is easy.
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Re: classical physics - rod anchored to ground, rotational inertia
yeah wasnt a problem tonight, actually have intuition for it, i hate quantum and e+m since my intuitions not that good for it
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