Solution to Set 4: Difference between revisions

Problem 1

Cu, density ${\displaystyle \rho =8.885{g \over cm^{3}}}$, atomic mass ${\displaystyle m_{a}=63.57amu}$, fcc structure

a. In ${\displaystyle 1m^{3}}$, the number of moles is ${\displaystyle ({8.885g \over 1cm^{3}})({1cm^{3} \over 5\times 10^{6}m^{3}})({1mol \over 63.55g})=1.40\times 10^{5}{mol \over m^{3}}}$

b. Atoms in ${\displaystyle 1m^{3}}$ ${\displaystyle ({1.40\times 10^{5}mol \over 1m^{3}})({6.022\times 10^{23} \over 1mol})=8.43\times 10^{28}atoms}$

c. Since the bonds between the atoms are small compared to the diameter of the atom, we neglect the bonds for an estimate. The structure is fcc and the length of each side of the cube is ${\displaystyle 2r=362pm}$, where r is the radius of one Cu atom.

d. Atomic radius

${\displaystyle p={m_{a} \over V_{s}}}$, where ${\displaystyle V_{s}={4 \over 3}\pi r^{3}}$

${\displaystyle p={m_{a} \over {4 \over 3}\pi r^{3}}}$

${\displaystyle r=({3m_{a} \over 4p\pi })^{1 \over 3}=128pm}$

e. Mass of 1 atom

${\displaystyle (63.57amu)({1.66\times 10^{-24}g \over 1amu})=1.06\times 10^{-22}g}$

Problem 3

a. fcc and primitive cell

b. ${\displaystyle V_{f}cc=lwh=a_{1}a_{2}a_{3}={1 \over 2}a(x+y){1 \over 2}a(y+z){1 \over 2}a(z+x)={1 \over 8}a^{3}({1 \over 2}+{1 \over 2})(1+1)({1 \over 2}+{1 \over 2})={1 \over 4}a^{3}}$

The volume of the primitive cell is ${\displaystyle {1 \over 4}}$ the volume of the fcc cell.