Calculating work done by a spring when stretched

Join the discussion
Ask a follow-up here, or get your own question answered by working scientists, mathematicians and engineers — people, not an autocomplete.
Real named experts · corrections over time · the nuance an AI answer skips
5 replies · 9K views
vinnyzwrx
Messages
14
Reaction score
0

Homework Statement



At a certain point, when a spring is stretched near its elastic limit, the spring force satisfies the equation

F = −α x + β x3 , where α = 12 N/m and β = 890 N/m3 .

Calculate the work done by the spring when it is stretched from its equilibrium position to 0.15 m past its equilibrium.
Answer in units of mJ.

Homework Equations



The Attempt at a Solution



since this is a nonlinear curve i thought that the area under the curve would equal the work done by the spring at the .15 m

so i integrated and got

-6x2 + 222.5x4

since the spring is starting at the equilibrium position, initial position is 0 and final position is .15m so

-6(.15)2+222.5(.15)4 = -.02235

this doesn't make sense since we are pulling the spring and the work should be positive right?
 
Physics news on Phys.org
ok so maybe its negative because the spring would be working to go back to its equilibrium position. My answer is wrong though, what am i doing wrong?

am i right in my approach? i really can't think of another way of going about it...

a hint would be very nice
 
Last edited:
if work = 1/2kx^2 then all i need to find is the constant k given the information... i don't see how i can do this because i don't know x for the given equation, it just tells me that its near its elastic limit
 
Work (actually, potential energy) does not equal 1/2 kx^2 in this case. That equation applies only when F = -kx per Hookes law. This spring does not follow that law. Your original solution looks correct to me, except you answered in joules , but the problem asked for the answer in milli-joules (mJ).
-0.02235 J = ____?____ mJ ? (round it off to the nearest whole number).
 
-22.35. Thanks a lot, I can't believe I didn't see that.