Calculating Potential and Kinetic Energy in a Slingshot Physics Problem

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The discussion focuses on calculating potential and kinetic energy in a slingshot physics problem involving a stone and rubber bands. Initially, the potential energy (PE) was incorrectly calculated as 30 J, but it was later corrected to 60 J by recognizing that both rubber bands contribute to the energy storage. The speed of the stone was initially calculated as 34.6 m/s, which also needed adjustment based on the corrected potential energy value. The final answers are confirmed as PE = 60 J and speed v = 49 m/s. The importance of correctly accounting for both rubber bands in energy calculations is emphasized.
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Homework Statement



A slingshot consists of a light leather cup, containing a stone, that is pulled back against two parallel rubber bands. It takes a force of 15 N to stretch either one of these bands 1.0 cm.

(a) What is the potential energy stored in the two bands together when a 50-g stone is placed in the cup and pulled back 0.20 m from the equilibrium position?

(b) With what speed does the stone leave the slingshot?

The answers are a) PE = 60 J b) v = 49 m/s

Homework Equations



F=kx PE=1/2kx^2

The Attempt at a Solution



a)
F=kx
15 = k(0.01) → k=1500 N/m

PE = 1/2 k x^2
= 1/2 (1500)(.20)2
= 30 J

b)
PE1=KE1, KE = 1/2mv^2
1/2mv^2 = 30
1/2(0.050)v^2 = 30;
v= 34.6 m/s

Any comment or help would be appreciated about why I got the answers wrong. Thank you.
 
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Ok, I realized what was wrong with the first question. Since there are two straps, 30 must be doubled.
 
Just remember, although you fixed your result for part A, you use it to answer part B. (In other words you have to make changes to part B as well)
 
Thank you so much. :)
 
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