Spring and block of mass problem

AI Thread Summary
A block of mass m on a frictionless surface is attached to a spring and initially at rest when a constant horizontal force is applied. The discussion revolves around calculating the maximum kinetic energy and the spring constant k based on a provided graph. Participants express confusion about the problem's requirements and the relevant equations, particularly the energy stored in the spring and the work done by the applied force. Key formulas discussed include the kinetic energy equation and the energy of a stretched spring. The conversation highlights the importance of understanding these concepts for future exams, despite the homework being overdue.
tigerlili
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Homework Statement

a block of mass m lies on a horizontal frictionless surface and is attached to one end of a horizontal spring (spring constant k) whose other end is fixed. The block is initially at rest at the position where the spring is unstretched (x = 0) when a constant horizontal force in the positive direction of the x-axis is applied to it. A plot of the resulting kinetic energy of the block versus its position x is shown in Fig. 7-38.

http://edugen.wiley.com/edugen/courses/crs1650/art/qb/qu/c07/pict_7_38.gif

Homework Equations



f= -kx
k= 1/2 mv^2
ui + ki = uf + kf

The Attempt at a Solution



i'm really confused about how to start this one :/
 
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What are you supposed to find? I see no question there.
 
oh, woops! i forgot to paste the rest :X

The scale of the figure's vertical axis is set by Ks= 8.0 J. (a) What is the magnitude of ? (b) What is the value of k?

sorry about that!
 
Your part (a) question still isn't complete.
For (b), k is the maximum kinetic energy which the graph says is at distance 1 m.

I don't think you can use your k = 1/2*m*v^2 directly. You'll have to think about the work being done by that force and the spring energy (have to look up the formula for the energy of a stretched spring). Give us a start on that and someone will help you if you need help.
 
haha wow.. sorry about that
the vector notation didn't actually paste properly

and i really don't remember even learning the equation for a stretched spring, I'm just so lost
it no longer really matters, because the homework was already due
i just want to understand what's going on in the problem
thanks for your help, though
 
Take a look here: http://hyperphysics.phy-astr.gsu.edu/hbase/hframe.html
E = .5*k*x^2 where x is the distance the spring is stretched.
The idea is that the work done goes into a combination of kinetic and spring energy:
Fd = .5*k*x^2 + .5*m*v^2
Might be worth doing even though too late to hand in. Problems like this will come back to haunt you on exams.
 
i know you're right, I've just been so overwhelmed by this class lately
i think i understand it now, thanks for your help :)
 

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