How Much Does the Spring Shorten When the Partridge is Removed?

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The discussion revolves around calculating the spring's shortening after a partridge is removed. The partridge, weighing 5.05 kg, vibrates with a period of 4.15 seconds, leading to the determination of the spring constant, k, which was found to be 0.4539 N/m. Participants discussed the relationship between the period, mass, and spring constant, using the formula k = ω²m. The user initially struggled with applying the correct formulas but eventually arrived at the solution. The thread highlights the importance of understanding simple harmonic motion equations in solving spring-related problems.
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A partridge of mass 5.05 kg is suspended from a pear tree by an ideal spring of negligible mass. When the partridge is pulled down 0.100 m below its equilibrium position and released, it vibrates with a period of 4.15 s.

i figured out the first three parts, but part four has me stuck.

What is its speed as it passes through the equilibrium position?
.151m/s
What is its acceleration when it is 0.050 m above the equilibrium position?
-0.115 m/s^2
When it is moving upward, how much time is required for it to move from a point 0.050 m below its equilibrium position to a point 0.050 m above it?
0.692s
The motion of the partridge is stopped, and then it is removed from the spring. How much does the spring shorten?
I have no idea...


ive been stumped on this for a while now. i honestly have no idea how to even approach this part. can anybody help me out??
 
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One equation: Fg=kx, where Fg is the weight of the pear on the spring

Edit: on second thought, I'm not sure if they give you k. I forgot some SHM equations, but you can probably derive that from the previous eqs (potential energy, angular frequency). I got to brush up on that stuff.
 
Last edited:
aozer said:
ive been stumped on this for a while now. i honestly have no idea how to even approach this part. can anybody help me out??
Find the spring constant. Hint: How are the period, mass, and k related?
 
yea, i already found k to be .4539. i used omega=(2pi)/4.15 and then set k=omega^2/m to get it.

i tried using F=kx but it didnt work.

mg/k=x but i got 109.14 and it said it is wrong. doesn't that solve for the equilibrium position?
 
aozer said:
i used omega=(2pi)/4.15
OK.
and then set k=omega^2/m to get it.
Not OK.
 
oh wait, k=omega^2*m haha

ok, i got that, but i still don't know what to do.

i tried mg/k=x but it still comes up with the wrong answer.

edit:nvm i got the answer...
 

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