X-Ray Diffraction: Solving for θ Using nλ=2dsinθ

AI Thread Summary
The discussion centers on solving for the angle θ in X-ray diffraction using the equation nλ=2dsinθ. The user expresses confusion about how to approach the problem, particularly regarding the impact of thin films and the geometry of the crystal planes. It is noted that diffraction occurs only for planes at specific angles, and understanding the arrangement of the source, sample, and interference is crucial for determining the angle of the crystal planes. The conversation highlights the importance of making assumptions about wavelength (λ) and the order of diffraction (n) to compute the plane spacing (d). Ultimately, the user finds clarity and thanks the contributors for their assistance.
dawud
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Homework Statement



It's got a diagram in it so I have just attached a picture of it.

Homework Equations



nλ=2dsinθ

The Attempt at a Solution



I've really got no idea how to proceed with this one. I think you have to consider the effect of the thin film as well. Any ideas?
 

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From a quick reading up on the subject (of which previously I was blissfully ignorant), I would say that the incoming and outgoing beams must make the same angle to the planes in the crystal. Since it's powdered, the planes will be at every angle, but diffraction is only going to observed in those crystals with planes at the bisecting angle. So given the geometry of the source, sample and observed interference, you can deduce the angle of the crystal planes responsible.
Having done that, you can compute the plane spacing.
 
3. But you can make some assumptions. You have a ##\lambda##, there are 2 ##\theta##s. If n= 1, what is d for each of these ?

Once again, even quick replies cross. But there is a starting point.
 
Thanks a lot guys! I've got it now!
 
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