Circular Motion Homework: Tension & Min. Speed

AI Thread Summary
The discussion focuses on a homework problem involving a ball in uniform-speed circular motion. For the first part, the tension in the cord at the lowest point is calculated to be 30 N using the formula T = m(Ac + g). In the second part, the minimum speed required for the ball to maintain circular motion is determined to be 4.4 m/s, derived from the condition where tension is zero at the top of the circle. It is noted that tension becomes zero before reaching the top, indicating that the ball would exit the circular path and enter projectile motion if the speed is insufficient. The solution emphasizes the importance of analyzing the forces acting on the ball throughout its motion.
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Homework Statement



A small ball of mass 0.50 kg is attached to a cord and perform uniform-speed circular motion of radius 2.0 m in a vertical plane.

i) If the speed of the circular motion is 10m/s, determine the tension in the cord at the lowest point of the circular motion.
ii) Determine the minimum possible speed of this circular motion.

Homework Equations



radical acceleration = v^2/r
Fnet=ma

The Attempt at a Solution



i) T-mg=mAc, where Ac is the radical acceleration.
T=mAc+mg=m(Ac+g)=0.5*(10^2/2+9.81)=30N

ii) At the top position,
mg-T=mAc
T=0 for minimum speed,
mg=mAc=m(v^2/r)
v=√(gr)=√(9.81*2)=4.4m/s
 
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Your attempt at the first bit of the question is correct. In the second bit of the question you considered the top most point of the vertical circle to be the point where tension is zero but as the mass is attached to a flexible chord the tension becomes zero before the ball reaches to the top and hence the ball leaves the circle and goes into a projectile motion. Try framing your equation as a function of the angle made by the string with the verticle then locate the point where tension becomes zero.
 

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