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G) Determine the relationship between the radii of magnesium and tellurium in beta-MgTe and the lattice parameter, a, for beta-magnesium telluride (MgTe). H) Would the
G) Determine the relationship between the radii of magnesium and tellurium in beta-MgTe and the lattice parameter, a, for beta-magnesium telluride (MgTe). H) Would the (113) plane in MgTe be observed by X-ray diffraction? To get three of the five points, explain why. You may wish to do parts K & L first. I) Determine the number of magnesium atoms (or ions) and the number of tellurium atoms (or ions) in the unit cell. J) Calculate the bulk density of B-MgTe in grams per cubic centimeter. The atomic masses of Mg and Te are 24.305 g/mole of atoms and 127.6 g/mole of atoms, respectively. Avogadro's #= 6.022 x 1023 atoms/mole of atoms. K) Sketch a (113) plane. G) Determine the relationship between the radii of magnesium and tellurium in beta-MgTe and the lattice parameter, a, for beta-magnesium telluride (MgTe). H) Would the (113) plane in MgTe be observed by X-ray diffraction? To get three of the five points, explain why. You may wish to do parts K & L first. I) Determine the number of magnesium atoms (or ions) and the number of tellurium atoms (or ions) in the unit cell. J) Calculate the bulk density of B-MgTe in grams per cubic centimeter. The atomic masses of Mg and Te are 24.305 g/mole of atoms and 127.6 g/mole of atoms, respectively. Avogadro's #= 6.022 x 1023 atoms/mole of atoms. K) Sketch a (113) plane
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