Finding the Stretch of a Hanging Mass on a Spring

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To determine how far a spring stretches when a mass is hung from it, the spring constant (k = 50 N/m) and the weight of the mass (m = 1.5 kg, resulting in a force of 14.7 N) are crucial. The initial calculation using the force equation suggests a stretch of 0.29 m, but this was initially deemed incorrect due to oversight regarding significant figures. The potential energy equation may also be relevant in solving the problem, indicating a need for careful consideration of units and precision. Ultimately, the discussion highlights the importance of significant figures in obtaining the correct answer. Understanding both force balance and energy concepts is essential for solving spring-mass problems accurately.
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Homework Statement


A spring with spring constant k = 50 N/m and unstretched length of L is attached to the ceiling. A block of mass m = 1.5 kg is hung gently on the end of the spring. How far does the spring stretch?

Homework Equations


PEspring=0.5kx2
Fspring=-kx

The Attempt at a Solution


When the mass hangs at rest at its lowest point where the spring is stretched the furthest, its weight is exerting a force of 14.7 N on the spring. Likewise, the spring should be exerting that same force on the mass, but plugging that into the force equation by dividing 14.7 by 50 gives an x value of 0.29 m, but this is incorrect. I must be overlooking something since I know I probably have to use the potential energy equation too. Any know what I'm doing wrong?
 
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Are there any particular units that they want the result expressed in? The force balance approach should be correct.
 
Oh, apparently I was right, it was the significant figures that were saying it was wrong. Thanks anyway!
 
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