Proving coefficient of volume expansion

AI Thread Summary
To prove the relationship B=3A, where B is the coefficient of volume expansion and A is the coefficient of linear expansion, one must analyze a cube with side length 's' and volume V=s^3 under a temperature change 'dT'. The equations B=(deltaV/V)/deltaT and A=(deltaL/L)/deltaT are foundational to this proof. The discussion highlights the need to first establish the coefficient of linear expansion before relating it to the coefficient of volume expansion. It suggests that the relationship can be derived directly by recognizing that volume expansion is influenced by changes in all three dimensions, leading to the conclusion that B is indeed three times A. Understanding this relationship simplifies the proof process significantly.
bray d
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Homework Statement


Prove the equation B=3A, where B is the coefficient of volume expansion and A is the coefficient of linear expansion, considering a cube of side 's' and therefore volume V=s^3 that undergoes a small temperature change 'dT' and corresponding length and volume changes 'ds' and 'dV'.


Homework Equations


B=(deltaV/V)/deltaT
A=(deltaL/L)/deltaT

The Attempt at a Solution


I think I need to prove the coefficient of linear expansion, then prove the coefficient of volume expansion and observe the relationship between the two. I don't know where to start though, or if there is a more straight forward way. any help is appreciated, thanks
 
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I was thinking of using the ideal gas law:
PV=nRT

but ITS NOT A GAS. I'm lost
 
Are you sure that you don't just need to show that if the coefficient of linear expansion is A then the coefficient of volume of expansion is just 3A?

I feel that this is more likely the question being asked.
 
Thread 'Variable mass system : water sprayed into a moving container'

Thread 'Variable mass system : water sprayed into a moving container'

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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