a) $\mbox{N}_{2}\mbox{O}_{5}$

$\begin{aligned}M_{r}\mbox{N}_{2}\mbox{O}_{5} & =(2\times A_{r}\mbox{ N})+(5\times A_{r}\mbox{ O})\\
& =(2\times14)+(5\times16)\\
& =28+80\\
& =108
\end{aligned}
$

$\begin{aligned}\mbox{kadar N} & =\frac{\mbox{jumlah N}\times A_{r}\mbox{N}}{M_{r}\mbox{N}_{2}\mbox{O}_{5}}\times100\%\\
& =\frac{2\times14}{108}\times100\%\\
& =25,93\%
\end{aligned}
$

(b)$\mbox{NO}_{2}$

$\begin{aligned}M_{r}\mbox{ NO}_{2} & =(1\times A_{r}\mbox{ N})+(2\times A_{r}\mbox{ O})\\
& =(1\times14)+(2\times16)\\
& =14+32\\
& =46
\end{aligned}
$

$\begin{aligned}\mbox{kadar N} & =\frac{\mbox{jumlah N}\times A_{r}\mbox{N}}{M_{r}\mbox{ NO}_{2}}\times100\%\\
& =\frac{1\times14}{46}\times100\%\\
& =30,43\%
\end{aligned}
$

(c) $\mbox{HNO}_{3}$

$\begin{aligned}M_{r}\mbox{ HNO}_{3} & =(1\times A_{r}\mbox{ H})+(1\times A_{r}\mbox{ N})+(3\times A_{r}\mbox{ O})\\
& =(1\times1)+(1\times14)+(3\times16)\\
& =1+14+48\\
& =63
\end{aligned}
$

$\begin{aligned}\mbox{kadar N} & =\frac{\mbox{jumlah N}\times A_{r}\mbox{N}}{M_{r}\mbox{ HNO}_{3}}\times100\%\\
& =\frac{1\times14}{63}\times100\%\\
& =22,22\%
\end{aligned}
$

(d) $\mbox{KNO}_{3}$

$\begin{aligned}M_{r}\mbox{ KNO}_{3} & =(1\times A_{r}\mbox{ K})+(1\times A_{r}\mbox{ N})+(3\times A_{r}\mbox{ O})\\
& =(1\times39)+(1\times14)+(3\times16)\\
& =39+14+48\\
& =101
\end{aligned}
$

$\begin{aligned}\mbox{kadar N} & =\frac{\mbox{jumlah N}\times A_{r}\mbox{N}}{M_{r}\mbox{ KNO}_{3}}\times100\%\\
& =\frac{1\times14}{101}\times100\%\\
& =13,86\%
\end{aligned}
$

(e) $\mbox{CO}\left(\mbox{NH}_{2}\right)_{2}$

$\begin{aligned}M_{r}\mbox{ CO}\left(\mbox{NH}_{2}\right)_{2} & =(1\times A_{r}\mbox{ C})+(1\times A_{r}\mbox{ O})+(2\times A_{r}\mbox{ N})+(4\times A_{r}\mbox{ H})\\
& =(1\times12)+((1\times16)+(2\times14)+(4\times1)\\
& =12+16+28+4\\
& =60
\end{aligned}
$

$\begin{aligned}\mbox{kadar N} & =\frac{\mbox{jumlah N}\times A_{r}\mbox{N}}{M_{r}\mbox{ CO}\left(\mbox{NH}_{2}\right)_{2}}\times100\%\\
& =\frac{2\times14}{60}\times100\%\\
& =46,67\%.
\end{aligned}
$

$\begin{aligned}M_{r}\mbox{CO}\left(\mbox{NH}_{2}\right)_{2} & =(1\times A_{r}\mbox{ C})+(1\times A_{r}\mbox{ O})+(2\times A_{r}\mbox{ N})+(4\times A_{r}\mbox{ H})\\
& =(1\times12)+((1\times16)+(2\times14)+(4\times1)\\
& =12+16+28+4\\
& =60
\end{aligned}
$

$\begin{aligned}\mbox{kadar N} & =\frac{\mbox{jumlah N}\times A_{r}\mbox{N}}{M_{r}\mbox{CO}\left(\mbox{NH}_{2}\right)_{2}}\times100\%\\
& =\frac{2\times14}{60}\times100\%\\
& =46,67\%.
\end{aligned}
$

Magnetit mengandung sekitar 72.4% Fe sehingga ialah mineral yang paling banyak mengandung besi.

$\begin{alignedat}{1}M_{r}\mbox{ CO}_{2} & =(1\times A_{r}\mbox{ C})+(2\times A_{r}\mbox{ O})\\
& =(1\times12)+(2\times16)\\
& =12+32\\
& =44\\
\mbox{massa C} & =\frac{\mbox{jumlah C}\times A_{r}\mbox{C}}{M_{r}\mbox{ CO}_{2}}\times2,2\mbox{ gram}\\
& =\frac{1\times12}{44}\times2,2\mbox{ gram}\\
& =0,6\mbox{ gram}.
\end{alignedat}
$

$\begin{aligned}\mbox{m ZnS dalam bijih} & =\frac{97}{100}\times10^{6}\mbox{g}\\
& =9,7\times10^{5}\mbox{g}
\end{aligned}
$

$\begin{aligned}\mbox{m Zn dalam ZnS} & =\frac{65}{97}\times9,7\times10^{5}\mbox{g}\\
& =6,5\times10^{5}\mbox{g}
\end{aligned}
$

Massa $\mbox{Al}_{2}$$\mbox{O}_{3}$ dalam bijih = presentase $\mbox{Al}_{2}\mbox{O}_{3}$
$\times$ masa $\mbox{Al}_{2}\mbox{O}_{3}$

$\begin{aligned} & =24\%\times2,6\mbox{ kg}\\
& =0,624\mbox{ kg}
\end{aligned}
$

$\begin{aligned}\mbox{Massa Al} & =\frac{\mbox{jumlah Al}\times A_{r}\mbox{Al}}{M_{r}\mbox{ Al}_{2}\mbox{O}_{3}}\times\mbox{massa Al}_{2}\mbox{O}_{3}\\
& =\frac{2\times27}{102}\times0,624\mbox{ kg}\\
& =0,33\mbox{ kg}\\
& =330\mbox{ g}.
\end{aligned}
$

$\begin{alignedat}{1}m_{\mbox{Fe}} & =\frac{2\times A_{r}\mbox{ Fe}}{M_{r}\mbox{ Fe}_{2}\mbox{O}_{3}}\times m\mbox{ Fe}_{2}\mbox{O}_{3}\\
30,24\mbox{ g} & =\frac{2\times56}{160}\times m_{\mbox{Fe}_{2}\mbox{O}_{3}}\\
m_{\mbox{Fe}_{2}\mbox{O}_{3}} & =43,2\mbox{ g}\\
\%\mbox{Fe}_{2}\mbox{O}_{3} & =\frac{m_{\mbox{Fe}_{2}\mbox{O}_{3}}}{m_{\mbox{bijih}}}\times100\%\\
& =\frac{43,2\mbox{ g}}{80\mbox{ g}}\times100\%\\
& =54\%.
\end{alignedat}
$

Siderit mengandung sekitar $48.2\%$ Fe, sehingga ialah mineral yang mengandung paling sedikit besi.

$\begin{alignedat}{1}m_{\mbox{N dalam m}^{2}} & =\frac{m_{N}}{l\mbox{uas lahan}}\\
14\mbox{ g} & =\frac{m_{\mbox{N}}}{20000}\\
m_{\mbox{N}} & =280000\mbox{ gram}\\
m_{\mbox{N}} & =\frac{A_{r}\mbox{ N}\times\mbox{jumlah N}}{M_{r}\mbox{CO}\left(\mbox{NH}_{2}\right)_{2}}\times\mbox{m pupuk}\\
280000\mbox{ gram} & =\frac{14\times2}{60}\times\mbox{m pupuk}\\
\mbox{m pupuk} & =600000\mbox{ g}\\
& =600\mbox{ kg}\\
& =6\mbox{ kuintal}
\end{alignedat}
$

$\begin{alignedat}{1}\mbox{m S} & =\frac{1\times A_{r}\mbox{ S}}{M_{r}\mbox{ SO}_{2}}\times\mbox{m SO}_{2}\\
& =\frac{32}{64}\times16\mbox{ g}\\
& =8\mbox{ g}\\
\%\mbox{S dalam sampel} & =\frac{m\mbox{ S}}{m_{\mbox{sampel}}}\times100\%\\
& =\frac{8\mbox{ g}}{20\mbox{ g}}\times100\%\\
& =40\%.
\end{alignedat}
$

$\begin{alignedat}{1}\mbox{m S dalam SO}_{2} & =\frac{32}{64}\times12\mbox{ g}\\
& =6\mbox{ g}\\
\mbox{m S dalam PbS} & =\frac{100\%\times6\mbox{ g}}{80\%}\\
& =7,5\mbox{ g}\\
\mbox{m S dalam PbS} & =\frac{1\times A_{r}\mbox{ S}}{M_{r}\mbox{ PbS}}\times m_{\mbox{PbS}}\\
7,5\mbox{ g} & =\frac{32}{239}\times m_{\mbox{PbS}}\\
m_{\mbox{PbS}} & =56,02\mbox{ g}\\
\%\mbox{PbS dalam cuplikan} & =\frac{56,02}{65}\times100\%\\
& =86,2\%.
\end{alignedat}
$

$\begin{aligned}m_{\mbox{N dalam pupuk}} & =\%N\times m_{\mbox{pupuk}}\\
& =8\%\times2000\mbox{ g}\\
& =160\mbox{ g}
\end{aligned}
$

$\begin{aligned}m_{\mbox{N}} & =\frac{A_{r}\mbox{ N}\times\mbox{jumlah N}}{M_{r}\left(\mbox{NH}_{4}\right)_{3}\mbox{PO}_{4}}\times m_{\left(\mbox{NH}_{4}\right)_{3}\mbox{PO}_{4}}\\
160\mbox{ g} & =\frac{14\times3}{149}\times m_{\left(\mbox{NH}_{4}\right)_{3}\mbox{PO}_{4}}\\
m_{\left(\mbox{NH}_{4}\right)_{3}\mbox{PO}_{4}} & =567,62\mbox{ g}
\end{aligned}
$

$\begin{aligned}m_{\mbox{p dalam}}\left(\mbox{NH}_{4}\right)_{3}\mbox{PO}_{4} & =\frac{A_{r}\mbox{ P}\times\mbox{jumlah P}}{M_{r}\left(\mbox{NH}_{4}\right)_{3}\mbox{PO}_{4}}\times m_{\left(\mbox{NH}_{4}\right)_{3}\mbox{PO}_{4}}\\
& =\frac{31\times1}{149}\times567,62\mbox{ g}\\
& =118,1\mbox{ g}
\end{aligned}
$

$\begin{aligned}\%\mbox{P}_{\mbox{dalam pupuk}} & =\frac{m_{\mbox{unsur P}}}{m_{\mbox{pupuk}}}\times100\%\\
& =\frac{118,1\mbox{ g}}{2000\mbox{ g}}\times100\%\\
& =5,9\%\approx6\%.
\end{aligned}
$

$\begin{aligned}\mbox{Massa }\mbox{K}_{2}\mbox{SO}_{4}\mbox{ dalam pupuk} & =\frac{30}{100}\times1000\mbox{ kg}\\
& =300\mbox{ kg}
\end{aligned}
$

$\begin{aligned}\mbox{Massa total kalium} & =\frac{2\times A_{r}\mbox{ K}}{M_{r}\mbox{K}_{2}\mbox{SO}_{4}}\times300\mbox{ kg}\\
& =134.48\mbox{ kg}
\end{aligned}
$

$\begin{aligned}\mbox{Massa kalium untuk setiap m}^{2} & =\frac{134.48\mbox{ kg}}{30000\mbox{ m}^{2}}\\
& =4.48\mbox{ g}.
\end{aligned}
$

$\begin{aligned}\mbox{Massa total sulfur} & =\frac{A_{r}\mbox{ S}}{M_{r}\mbox{ K}_{2}\mbox{SO}_{4}}\times300\mbox{ kg}\\
& =9.375\mbox{ kg}
\end{aligned}
$

Massa sulfur setiap deka meter persegi

$\begin{aligned} & =\frac{9.375\mbox{ kg}}{300\mbox{ dam}^{2}}\times9.375\mbox{ kg}\\
& =31.25\mbox{ g.}
\end{aligned}
$