Learn How to Solve a Difficult Homework Question on Hooke's Law

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Homework Help Overview

The discussion revolves around a physics homework problem related to Hooke's Law, involving a trolley on a frictionless air track attached to a spring. The problem includes questions about the initial acceleration of the trolley, the energy stored in the spring, and the final speed of the trolley after release.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the application of Newton's second law (F = ma) and the formula for elastic potential energy (W = 1/2 kx^2). There are attempts to calculate the force exerted by the spring and the resulting acceleration of the trolley. Some participants express uncertainty about their calculations and seek clarification on the energy transformation involved.

Discussion Status

The discussion is ongoing, with various participants providing calculations and questioning each other's methods. Some guidance has been offered regarding the use of units and the relationships between force, acceleration, and energy, but there is no consensus on the correct approach or final answers.

Contextual Notes

Participants note that the problem may not align with textbook examples, leading to confusion. There are also mentions of potential discrepancies in answers due to unit conversions and the interpretation of energy transfer.

charikaar
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Hello,

I found one of my this homework question difficult and was wondering if anyone could please help me.

A 180g trolley is placed on frictionless air track. One end of the trolley is attached to a spring of spring constant 50 N/m. The trolley is pushed against a fixed support so that the compression of the spring is 8 cm. The trolley is then released.

(a) What is the initial acceleration of the trolley when it is released?
(b) What is the initial energy stored in the spring?
(c) Calculate the final speed of the trolley along the frictionless track. You may assume that there is 100% transfer of energy from the spring to the trolley.

Any help would greatly be appreciated.



charikaar
 
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(a) F = ma
(b) [tex]W = \frac{1}{2}kx^2[/tex] You can obtain that by integrating, but I'm not sure if you're familiar with that stuff.
(c) Energy principle
 
hello,

Thanks for the quick reply.


Mass of trolley: 180g or 0.18 kg

compression: 8cm or 0.08m

Using F=extentionxconstant to find Force
50/0.08=625N

Now using F=ma to find acceleration

625/0.18=3472.22...Am i correct?

(b) using W=1/2kx^2

25x0.64=16J

(c) I've no idea how to start this one.


thank you.


Charikaar
 
(a) Instead of calculating the force right in the beginning, solve the problem with the letters, and into the final equation, plug in the requested stuff. Oh, and F = -kx, not -k/x
(b) Are you using SI-units? I got a different answer.
(c) What sort of energy does the potential energy of the spring transform into?
 
Last edited:
Hi again,

I've just started AS physics and am not familiar with this stuff much. I don't know where does my teacher get these question from when they are not in the book.


(a) k=50 N/m, x=0.08 m using F=kx, F=50x0.08=4N

Now using F=ma to acceleration
a=F/m, 4/0.18=22.22...N/mkg


(b) This is AS Physics question.
Elastic Potential Energy=1/2xstretching forcexextension
=1/2x8x0.08=0.32J




(c)I think it transfers to energy of movement. Could you please give me equation for the solution.


Thanks for your help.


Charikaar
 
(a) Correct. From F = ma, we can see that the unit of F is [itex]kgm/s^2[/itex] This divided by kg, we get [itex]m/s^2[/itex], which is the unit of acceleration.
(b) My answer's half that.
(c) Kinetic energy: [tex]\frac{1}{2}mv^2[/tex].
 

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