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emmanuelpn
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I need to derive the lattice parameter in terms of the Zn-S separation distance, l.
I looked up the value and I've found it to be
a = [itex]\frac{4}{\sqrt{3}}[/itex]l
The way that I started my derivation was saying that each tetrahedron has a sulfide ion in the center, so then we can make a triangle from the center point, and two zinc adjacent atoms. This isosceles triangle will have an angle
θ = cos-1[itex]\frac{1}{3}[/itex]
with two equal sides of the separation distance l, and an opposite side of the angle θ, let's call it x. Finding x is then easy using the law of cosines.
x2 = 2l2 – 2l2cosθ
then
x = [itex]\frac{2}{\sqrt{3}}[/itex]l
Now, I'm having a hard time relating x to a. And the only way it seems to work out to get the answer I looked up is by saying a = 2x. But from the crystal structure, my mind tells me [itex]\sqrt{2}a[/itex] = 2x.
Does anyone know what's going on?
I looked up the value and I've found it to be
a = [itex]\frac{4}{\sqrt{3}}[/itex]l
The way that I started my derivation was saying that each tetrahedron has a sulfide ion in the center, so then we can make a triangle from the center point, and two zinc adjacent atoms. This isosceles triangle will have an angle
θ = cos-1[itex]\frac{1}{3}[/itex]
with two equal sides of the separation distance l, and an opposite side of the angle θ, let's call it x. Finding x is then easy using the law of cosines.
x2 = 2l2 – 2l2cosθ
then
x = [itex]\frac{2}{\sqrt{3}}[/itex]l
Now, I'm having a hard time relating x to a. And the only way it seems to work out to get the answer I looked up is by saying a = 2x. But from the crystal structure, my mind tells me [itex]\sqrt{2}a[/itex] = 2x.
Does anyone know what's going on?
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