\(n_{CO_2}=\dfrac{8.8}{44}=0.2\left(mol\right)\)
\(n_{O_2}=\dfrac{9.6}{32}=0.3\left(mol\right)\)
\(2CO+O_2\underrightarrow{t^0}2CO_2\)
\(0.2.......0.1.......0.2\)
\(2H_2+O_2\underrightarrow{t^0}2H_2O\)
\(0.4......0.3-0.1\)
\(\%m_{CO}=\dfrac{0.2\cdot28}{0.2\cdot28+0.4\cdot2}\cdot100\%=87.5\%\)
\(\%m_{H_2}=100-87.5=12.5\%\)
a)
\(2CO + O_2 \xrightarrow{t^o} 2CO_2(1)\\ 2H_2 + O_2 \xrightarrow{t^o} 2H_2O(2) \)
b)
\(n_{CO_2} = \dfrac{8,8}{44} = 0,2(mol)\\ n_{O_2} = \dfrac{9,6}{32} = 0,3(mol)\)
Theo PTHH :
\(n_{CO} = n_{CO_2} = 0,2(mol)\\ n_{O_2(1)} = \dfrac{1}{2}n_{CO_2} = 0,1(mol)\\ n_{H_2} = 2n_{O_2(2)} = 2(0,3-0,1) = 0,4(mol)\)
Vậy :
\(\%m_{CO} = \dfrac{0,2.28}{0,2.28+0,4.2}.100\% = 87,5\%\\ \%m_{H_2} = 100\% - 87,5\% = 12,5\%\)
