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A thin rod of length 1.4 m and mass 180 g is suspended freely from one end. It is pulled to one side and then allowed to swing like a pendulum, passing through its lowest position with angular speed 1.
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11 votes
11 votes
A thin rod of length 1.4 m and mass 180 g is suspended freely from one end. It is pulled to one side and then allowed to swing like a pendulum, passing through its lowest position with angular speed 1.80 rad/s. Neglecting friction and air resistance, find (a) the rod's kinetic energy at its lowest position and (b) how far above that position the center of mass rises.

User Shortorian
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1 Answer

23 votes
23 votes

Answer:


K.E = 0.1905 J

Step-by-step explanation:

From the question we are told that:

Length
L=1.4m

Mass
m=180g

Angular Velocity
\omega=1.80rads/s

Generally the equation for Kinetic energy K.E is mathematically given by


K.E =0.5 (1/3 ML^2 )w^2


K.E =0.5 ( 1/3 * 0.18 * 1.4^2 ) 1.8^2


K.E = 0.1905 J

User Synctrex
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