What Weight Should Be Hung at Point P for Horizontal String?

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The discussion centers on determining the weight that should be hung at point P to make the lower part of a string horizontal. One participant argues that the string cannot be horizontal and explains their reasoning using a free body diagram (FBD) for point P, asserting that equilibrium cannot be achieved regardless of the weight's magnitude. Another participant counters this by suggesting that point P can be in static equilibrium unless it is accelerating and questions the assumption that tension is uniform throughout the string. They also propose that if the string elongates significantly under load, the lower segment could potentially become horizontal. The conversation highlights the complexities of tension and equilibrium in a hanging string scenario.
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Homework Statement



http://img134.imageshack.us/img134/781/86393071cs1.jpg
The figure shows a string with its ends attached to a wall. What weight should be hung at point p so that the lower part of this string becomes completely horizontal?

The Attempt at a Solution


I don't think the string can be horizontal.
I drew the FBD for point p.
since tension is same throughout.
the horizontal part of the string applies t \hat{i}
the weight applies -w \hat{j}
the upper part of the string applies -t sin x \hat{i} +t cos x \hat{j}

where x is the angle made by the upper part of the string with the vertical.
Point p cannot be in equilibrium whatever the magnitude of w be.
Am I right?
 
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ritwik06: No, point P is in static equilibrium, unless it is accelerating. Were properties for the string given? Tension is not the same throughout the string if a tangential force component is applied in the middle of the string, by an object that is not allowed to slip or roll, right? If the string elongates greatly under the applied load, couldn't the lower segment of the string become horizontal? Try it again.
 

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