How Do You Calculate the Bending Angle of a Bimetallic Strip?

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To calculate the bending angle of a bimetallic strip made of iron and zinc, the linear expansion equations for both metals are used, incorporating their respective coefficients of thermal expansion. The initial attempt involves substituting these equations to express the bending angle in terms of the temperature change (ΔT). However, the discussion reveals confusion regarding the application of the formula s = rθ and the definition of the radius in this context. A more appropriate formula suggested involves the bending angle being proportional to the difference in expansion coefficients and the temperature difference. The conversation concludes with the acknowledgment of a logic gap in the initial approach and the need for clearer definitions.
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Hi! There is a thermodynamics problem which I seem to be able to understand, yet unable to solve. If someone can me with it I would appreciate it.

Homework Statement


A Bi-metallic strip is straight at T= T0. It curves as it is heated up due to unequal expansion of two metals. The strip is made up of iron (a = 1.2e-5) and zinc (a = 3.1e-5). The question asks to calculate the bending angle when the original length of the strip is 100mm and with thickness of 1 mm.


Homework Equations


The linear expansion equation: L = L0(1 + a(T2 - T0))


The Attempt at a Solution


The substituted equations: LI = (100)(1 + (1.2e-5)(\DeltaT)
LZ = (100)(1 + (3.1e-5)(\DeltaT)

From here I use the formula s = r\theta
and get \theta = (3.8e-3)(\DeltaT)

I am not sure how to proceed from here because the question asks for a numerical answer but that seems impossible without the temperatures given.
 
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Welcome to PF.

If they give no temperature rise, then leave your answer in terms of ΔT as you have.
 
Thanks. I guess I will leave it as an expression.
 
Poptor, eh?
 
Sorry for the double-post, but also.. I don't understand your solution.

What does s=r*Theta have to do with this question.. and how does that lead to your solution?
 
The displacement of the end is given by the angle times the radius for small angle displacements.
 
Oh.. what exactly is the radius in this question?
I guess it's just that he said:

3. The Attempt at a Solution
The substituted equations: LI = (100)(1 + (1.2e-5)(LaTeX Code: \\Delta T)
LZ = (100)(1 + (3.1e-5)(LaTeX Code: \\Delta T)

From here I use the formula s = rLaTeX Code: \\theta
and get LaTeX Code: \\theta = (3.8e-3)(LaTeX Code: \\Delta T)


I sense a really big logic gap missing..

Otherwise, I thought the appropriate formula was:

Theta = length / thickness * (a1 - a2)*(T2-T1)

Where a1 and a2 are the expansion coefficients, and T2 and T1 are temperatures.

Excuse my ignorance, and thanks for the help.
 

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