Proving Spring's Total Constant: 2k/3

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The discussion revolves around proving that the total spring constant of a system composed of two springs in series is 2k/3. The first spring has a constant k and length l/2, while the second spring has a constant 2k and the same length. Participants suggest that the springs must be connected end-to-end, leading to the relationship between forces and displacements in each spring. The key equations involve the total force being equal across both springs and the total displacement being the sum of individual displacements. By applying these principles, the user can derive the equivalent spring constant.
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Hi!

I haven't done anything with the following problem because I really don't know where to start from. My book doesn't give any guideline. The only thing I am aware of is F=-Kx and E=Kx^2/2 but I cannot use them to proceed in some way.

'' A spring of length l it is consisted of 2 springs. The first has constant k and length l/2 and the second has constant 2k and length l/2.
Prove that the constant of the hole spring is 2k/3.''

I am sorry for the bad english. My mother tongue is greek.

Thank you.
 
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Welcome to PF joy!

1. Given two springs (and say a mass). How many ways can you connect the springs to the mass? (Hint: don't think about a mass sandwiched between two springs.)

2. Can you set up the equation for an equivalent spring and for the two "sub-springs"?

Hope that helps...(second hint: E = (1/2)kx^2 needn't be used)
 
Thanks for your help!

I have tried to use energy but it is still difficult. I realized though, that it is maybe a problem that needs oscillation...

maverick280857 said:
Welcome to PF joy!

1. Given two springs (and say a mass). How many ways can you connect the springs to the mass? (Hint: don't think about a mass sandwiched between two springs.)

2. Can you set up the equation for an equivalent spring and for the two "sub-springs"?

Hope that helps...(second hint: E = (1/2)kx^2 needn't be used)
 
Well, since the combined spring has length L and the two springs are length L/2, they must be attached end-to-end, or in series. So what does that mean. Consider Spring 1(Sp1) of spring constant k1, and Spring 2 (Sp2) with constant k2.

Sp 1 . . Sp2
|/\/\/|/\/\/\/| <-- F

Now force F pushes (or pulls) on the combined spring. What can we say about the force in each spring, in relationship to F. Let force in Spring 1 = F1 and Spring = F2. The forces are directly transmitted from F - to Sp 2 and from Sp 2 to Sp 1, so F = F1 = F2.

Now consider displacements x1 in Sp 1 and x2 in Sp 2.

F1 = k1x1 and F2 = k2x2, and the total displacement of the combined spring x = x1 + x2.

In the combined spring F = kx (and you wish to find k in terms of k1 and k2).

From the equilibrium conditions, remember x = x1 + x2, or

F/k = F1/k1+ F2/k2.

Now should be able to take it from here.
 
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Starting with the mass considerations #m(t)# is mass of water #M_{c}# mass of container and #M(t)# mass of total system $$M(t) = M_{C} + m(t)$$ $$\Rightarrow \frac{dM(t)}{dt} = \frac{dm(t)}{dt}$$ $$P_i = Mv + u \, dm$$ $$P_f = (M + dm)(v + dv)$$ $$\Delta P = M \, dv + (v - u) \, dm$$ $$F = \frac{dP}{dt} = M \frac{dv}{dt} + (v - u) \frac{dm}{dt}$$ $$F = u \frac{dm}{dt} = \rho A u^2$$ from conservation of momentum , the cannon recoils with the same force which it applies. $$\quad \frac{dm}{dt}...
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