Angular acceleration and Torque when rod reaches vertical position?

AI Thread Summary
When a rod of mass 1.30 kg and length 0.670 m is released from a horizontal position, it experiences a torque of 4.27 N·m and an angular acceleration of 21.9 rad/s² immediately after release. As the rod reaches the vertical position, the moment arm of the weight force about the pivot is zero because the weight acts through the axis of rotation. Consequently, both the torque and angular acceleration at the vertical position are zero. This indicates that the rod does not experience any rotational motion at this point. Understanding these dynamics is crucial for analyzing rotational motion in physics.
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Angular acceleration and Torque when rod reaches vertical position??

A rod (mass 1.30 kg, length .670 m) attached to a frictionless axis is released from rest in the horizontal position. What is the magnitude of the torque and angular acceleration when the rod has reached the vertical position?

I know at horizontal position (immediately after release) Torque = FR = mg(L/2)= 4.27n-m and torque = I∂ giving ∂ = 21.9 rad/s^2...but how do I solve for when it hits vertical position...? Please help!
 
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When the rod is hanging vertically, what is the moment arm of the weight force about the pivot?
 


Is it 0 b/c it is through the axis of rotation?
 


Yes, correct. So what's the torque and angular acceleration at this position?
 


Both would be 0 then, right?
 


sweetpete28 said:
Both would be 0 then, right?

Right!
 

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