190 rad/s
the angular velocity he imparts to the swing just after jumping off is
190 rad/s.
Wp = 200 lb
a = 10 ft
Wm = 150 lb
b = 11 lb
v = 5 ft/s
c = 4 ft
We know that,
0 = [tex]\frac{-Wm}{g}[/tex](v - ωa)a + [tex]\frac{-Wp}{g}[/tex]([tex]\frac{c^{2} }{12}[/tex] + [tex]b^{2}[/tex]) ω
= [tex]\frac{150}{9.8}[/tex] (5 - ω(10))10 + [tex]\frac{200}{9.8}[/tex]([tex]\frac{4^{2} }{12}[/tex] + [tex]11^{2}[/tex]) ω
ω = 190 rad/s
What is angular velocity?
- angular velocity is the speed at which the angle between two bodies changes when an object rotates or revolves around an axis.
- This displacement is depicted in the image by the angle formed by a line on one body and a line on the other.
What determines angular velocity?
- As was said in the section on the angular velocity of particles, the angular velocity is determined by the location around which the rotation is being measured.
- The angular velocities of each of the particles that make up a solid object are therefore distinct.
To learn more about angular velocity visit:
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