Bragg Diffraction: Axes Length for FeO, CoO, NiO

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FeO, CoO, and NiO exhibit a NaCl structure in solid form, characterized by simple cubic lattices. X-ray diffraction experiments revealed specific Bragg angles for these materials corresponding to the (111), (200), and (220) planes. The angles measured were 18.04°, 20.95°, and 30.28° for FeO; 18.26°, 21.20°, and 30.77° for CoO; and 18.63°, 21.64°, and 31.45° for NiO. The discussion highlights the need to use Bragg's law to calculate interplanar spacing and its relationship to the lattice constant, with the formula d = a / √(h² + k² + l²) being essential for determining the axis lengths. Participants express a desire for clarity on these calculations and the relevant formulas.
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Hi,

In the solid form FeO, CoO and NiO all has the NaCl-structure (simple cubic). In a series of diffraction experiments with x-rays (\lambda = 0.15406~\text{nm}) one found reflexes from the (111), (200) and (220)-planes with the following \theta-values (\theta is the angle in Bragg's law, 2d\sin\theta=\lambda):

FeO: 18.04 20.95 30.28
CoO: 18.26 21.20 30.77
NiO: 18.63 21.64 31.45

The first number is the angle corresponding to the reflection from the (111)-plane, the second number corresponds to reflection from the (200)-plane and the third from the (220)-plane.

Question: What are the axis length for the three unit cells? Any hints?
 
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Well, you can use Bragg's law to solve for the d for each angle. Now you need to know how the spacing between certain lattice planes, d, is related to the lattice constant (length of a side of the cubic cell). For example, for the (100) planes, the spacing is just a, for (110), it is a*sqrt(2), and so on.
 
What is the general formula relating the interplanar spacing (of some hkl family) to the lattice parameter in a cubic structure ?
 
Gokul43201 said:
What is the general formula relating the interplanar spacing (of some hkl family) to the lattice parameter in a cubic structure ?

I don't know, but man, I'd like to know that formula :!) I'm having some trouble visualizing this, to say the least.
 
I'm sure it's in the text : d = \frac{a}{\sqrt{h^2+k^2+l^2}}
 
Thank you very much. My book is Descriptive Inorganic Chemistry by Canham and Overton and I can't find that formula in it.
 

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