3.-A flywheel whose radius R = 1.25 m Yes, the angular velocity a of the particle begins to decrease uniformly from an angular velocity w_0= 10 rad/s (at t = 0) until stopping at t = 4 s. Calculate (a) the angular acceleration with which the steering wheel rotates (b) the angular velocity of the flywheel at t = 2s, (c) What are the values of the tangential and normal acceleration of a point located on the edge of the steering wheel when t = 2 sec? Graphically represent the movement.
3.-A flywheel whose radius R = 1.25 m Yes, the angular velocity a of the particle begins to decrease uniformly from an angular velocity w_0= 10 rad/s (at t = 0) until stopping at t = 4 s. Calculate (a) the angular acceleration with which the steering wheel rotates (b) the angular velocity of the flywheel at t = 2s, (c) What are the values of the tangential and normal acceleration of a point located on the edge of the steering wheel when t = 2 sec? Graphically represent the movement.
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3.-A flywheel whose radius R = 1.25 m Yes, the
(a) the
(b) the angular velocity of the flywheel at t = 2s,
(c) What are the values of the tangential and normal acceleration of a point located on the edge of the steering wheel when t = 2 sec? Graphically represent the movement.
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