Thermal Expansion, Young's Modulus

AI Thread Summary
The discussion centers on calculating the compressional stress required to prevent a steel beam from expanding due to temperature changes. The coefficients for linear expansion and Young's modulus for steel are provided, and the user has calculated the strain but is confused about the need for the original length. Clarification is given that the original length is not necessary when using the ratio ΔL/L. The relationship between stress, strain, and Young's modulus is emphasized, confirming that stress is defined as force per unit area. The conversation also briefly touches on finding Young's modulus for other materials, such as paper.
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Homework Statement


6. A steel beam is used in the road bed of a bridge. The beam is mounted between two concrete supports when the temperature is 23⁰C, with no room for thermal expansion. What compressional stress must the concrete supports apply to each end of the beam, if they are to keep the beam from expanding when the temperature rises to 42⁰C?
Co-efficient of linear expansion for steel = 11 x 10-6K-1
Young’s modulus for steel = 210GN.m-2

Homework Equations



deltaL/L=alpha deltaT
F/A*=delta L/L*Y

The Attempt at a Solution



Ive found delta L/L to be 2.09*10^-4 I've also done about a thousand other things but everything i try needs an original length, i feel like I've overlooked a simple step or something... can someone please give me a hand.
 
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You don't need the original length if you have ΔL/L
Young's modulus= stress / (ΔL/L)
You are given the modulus and need to calculate stress.
 
ok i have never seen this formula is stress defined as force of force/unit area??
 
pat666 said:
ok i have never seen this formula is stress defined as force of force/unit area??

Yes, stress is force per unit cross section area = F/A
strain is extension per unit length = ΔL/L
Young's modulus is stress/strain
 
ok i remember that from an early lecture thanks
 
How/where can I find Young's Modulus for paper?
 

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