Separate Brass & Aluminum Rods: Thermal Expansion

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SUMMARY

The discussion focuses on calculating the temperature required to separate a brass ring with a diameter of 10.00 cm and an aluminum rod with a diameter of 10.01 cm, both initially at 20°C. The coefficients of linear expansion are given as 2.0 x 10^-5 per °C for brass and 2.4 x 10^-5 per °C for aluminum. By setting up equations for the thermal expansion of both materials and equating the difference in their expansions to 0.01 cm, the temperature can be determined. The correct setup and solution will yield a temperature below 20°C, ensuring that the aluminum rod contracts more than the brass ring.

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  • Understanding of thermal expansion coefficients
  • Basic algebra for setting up and solving equations
  • Knowledge of the properties of brass and aluminum
  • Familiarity with temperature measurement and conversion
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  • Learn how to derive and apply the formula for linear thermal expansion
  • Study the effects of temperature on different materials' dimensions
  • Explore practical applications of thermal expansion in engineering
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A brass ring of diameter 10.00cm at 20C is heated and slipped over an aluminum rod diameter 10.01cm at 20C. Assuming the average coefficients of linear expansion are constant, to what temperature must the combination be cooled to separate them?

what i was thinking of doing here is setting up two equations for the lengths as functions of temperature and equating them. i don't know what the equations are though that i am supposed to use here. thanks for the help.
 
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I think you want to set up an equality with the difference of expansion lengths of radius of different materials.

try putting 0.01cm on one side, and that has to equal the difference (radius of aluminum) - (radius of brass ring). this is found by using the thermal expansion coefficient and the measurments at 20 C. 2.4 x 10^-5 per degree C for alum, 2.0 x 10^-5 per C for brass. this means that (10.00*2.0*10^-5*(20-T)) is the expansion or contraction for the brass ring. you want this value minus the value of the alum to be equal to 0.01.

set this equation up, solve for T, make sure you got the organization of the minus signs and differences correct. if your T is greater than 20, its not making sense. you would have the solution for when the rod would be .01 bigger than the ring. if you go over this Temperature you solve for, the rod always expands more. so make sure you get that right.

Im not sure if that's right, but it might help you.
 

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