A bullet with a mass of 14.0 g is fired at a wooden rod that hangs vertically do

Question

A bullet with a mass of 14.0 g is fired at a wooden rod that hangs vertically down from a pivot point that passes through the upper end of the rod. The bullet embeds itself in the exact center of the rod and the rod/bullet system swings up, reaching a maximum angular displacement of 52.0 degrees from the vertical. The rod has a mass of 275 g, a length of 1.10 m, and we can assume the rod rotates without friction about the pivot point. Assume the bullet is traveling horizontally when it hits the rod, and use g = 10.0 m/s2. (a) What is the rotational inertia of the rod/bullet system after the collision, rotating about the pivot point at the upper end of the rod? (b) What is the angular speed of the rod/bullet system immediately after the collision? (c) What is the bullet?s speed just before it hits the rod? m/s Any help would be useful Thank you

Explanation / Answer

(a) rot inertia = rod + bullet = (1/3) M L^2 + m r^2 =

= (1/3) * 0.275 * 1.10^2 + 0.014 * 0.55^2 = 0.11515 kg-m^2

(b) use cons of energy

(1/2) I w^2 = m g h

(1/2) * 0.11515 * w^2 = (0.275+0.014) * 9.80 * 0.55*(1-cos52)

w^2 = 10.3984

w = angular speed = 3.22465 rad/s

(c) ang momentum of bullet = ang mom of system

mvr = I w

0.014 * v * 0.55 = 0.11515 * 3.22465

v = 48.22 m/s

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