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a) PTHH: \(2CO+O_2\underrightarrow{t^o}2CO_2\) (1)
\(4H_2+O_2\underrightarrow{t^o}2H_2O\) (2)
b) Ta có: \(\left\{{}\begin{matrix}\Sigma n_{O_2}=\dfrac{9,6}{32}=0,3\left(mol\right)\\n_{CO_2}=\dfrac{8,8}{44}=0,2\left(mol\right)\end{matrix}\right.\) \(\Rightarrow\left\{{}\begin{matrix}n_{O_2\left(1\right)}=0,1mol\\n_{O_2\left(2\right)}=0,2mol\end{matrix}\right.\)
\(\Rightarrow\left\{{}\begin{matrix}m_{CO}=0,1\cdot28=2,8\left(g\right)\\m_{H_2}=0,2\cdot2=0,4\left(g\right)\end{matrix}\right.\) \(\Rightarrow\left\{{}\begin{matrix}\%m_{CO}=\dfrac{2,8}{2,8+0,4}\cdot100\%=87,5\%\\\%m_{H_2}=12,5\%\end{matrix}\right.\)
c) PTHH: \(2KMnO_4\underrightarrow{t^o}K_2MnO_4+MnO_2+O_2\uparrow\)
Theo PTHH: \(n_{KMnO_4}=2n_{O_2}=0,6mol\)
\(\Rightarrow m_{KMnO_4}=0,6\cdot158=94,8\left(g\right)\)
\(2CO + O_2 \xrightarrow{t^o} 2CO_2\\ 2H_2 + O_2 \xrightarrow{t^o} 2H_2O\\ n_{CO} = n_{CO_2} = \dfrac{8,8}{44} = 0,2(mol)\\ n_{O_2} = \dfrac{n_{CO} + n_{H_2}}{2}=\dfrac{0,2+n_{H_2}}{2} = \dfrac{9,6}{32} = 0,3(mol)\\ \Rightarrow n_{H_2} = 0,4(mol)\\ \%V_{CO} = \dfrac{0,2}{0,2 + 0,4}.100\% = 33,33\%\\ \%V_{H_2} = 100\% - 33,33\% = 66,67\%\\ \%m_{CO} = \dfrac{0,2.28}{0,2.28+0,4.2}.100\%=87,5\%\\ \%m_{H_2} = 100\% - 87,5\% = 12,5\%\)
\(n_{CO_2}=\dfrac{8.8}{44}=0.2\left(mol\right)\)
\(n_{O_2}=\dfrac{9.6}{32}=0.3\left(mol\right)\)
\(2CO+O_2\underrightarrow{t^0}2CO_2\)
\(0.2.......0.1.......0.2\)
\(2H_2+O_2\underrightarrow{t^0}2H_2O\)
\(0.4......0.3-0.1\)
\(\%m_{CO}=\dfrac{0.2\cdot28}{0.2\cdot28+0.4\cdot2}\cdot100\%=87.5\%\)
\(\%m_{H_2}=100-87.5=12.5\%\)
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 :
\(\%m_{CO} = \dfrac{0,2.28}{0,2.28+0,4.2}.100\% = 87,5\%\\ \%m_{H_2} = 100\% - 87,5\% = 12,5\%\)
nCO2 = 8.8/44 = 0.2 (mol)
nO2 = 9.6/32 = 0.3 (mol)
2CO + O2 -to-> 2CO2
0.2____0.1______0.2
2H2 + O2 -to-> 2H2O
0.4___0.3-0.1
%CO = 0.2*28 / ( 0.2*28 + 0.4*2) * 100% = 87.5%
%H2 = 12.5%
=> D
\(2CO + O_2\xrightarrow{t^o} 2CO_2(1)\\ n_{CO} = n_{CO_2} = \dfrac{8,8}{44} = 0,2(mol)\\ n_{O_2(1)} = \dfrac{n_{CO_2}}{2} = 0,1(mol)\\ 2H_2 +O_2 \xrightarrow{t^o} 2H_2O(2)\\ n_{H_2} = 2n_{O_2(2)} = 2.(\dfrac{9,6}{32}-0,1) = 0,4(mol)\\ \Rightarrow \%m_{CO} = \dfrac{0,2.28}{0,2.28 + 0,4.2}.100\% = 87,5\%\\ \%m_{H_2} = 100\% - 87,5\% = 12,5\%\)
nCO2=0,2mol
PTHH: 2CO+O2=>2CO2
0,2<--0,1<---0,2
=> mO2=0,2.32=6,4g
=> khối lượng Oxi phản ứng với H2 là :
9,6-6,4=3,2g
=> nH2O=3,2:32=0,1mol
PTHH: 2H+O2=>H2O
0,2<-0,1<-0,2
=> mH2=2.0,2=0,4g
mCO =0,2.28=5,6g
=> m hh=5,6+0,4=6g
16 nCO2=0,2mol
PTHH: 2CO+O2=>2CO2
0,2<--0,1<---0,2
=> mO2=0,2.32=6,4g
=> khối lượng Oxi phản ứng với H2 là :
9,6-6,4=3,2g
=> nH2O=3,2:32=0,1mol
PTHH: 2H+O2=>H2O
b)
0,2<-0,1<-0,2
=> mH2=2.0,2=0,4g
mCO =0,2.28=5,6g
=> m hh=5,6+0,4=6g
CuO+H2-to--->Cu+H2O
0,6----0,6
nCuO =48/80=0,6 (mol)
==>VH2 =0,6×22,4=13.44(l)
17.
\(n_{Fe}=\dfrac{5,6}{56}=0,1mol\)
\(m_{H_2SO_4}=200.19,6\%=39,2g\)
\(n_{H_2SO_4}=\dfrac{39,2}{98}=0,4mol\)
\(Fe+H_2SO_4\rightarrow FeSO_4+H_2\)
0,1 < 0,4 ( mol )
0,1 0,1 0,1 0,1 ( mol )
\(V_{H_2}=0,1.22,4=2,24l\)
Chất còn dư là H2SO4
\(m_{H_2SO_4\left(dư\right)}=\left(0,4-0,1\right).98=29,4g\)
\(\left\{{}\begin{matrix}m_{FeSO_4}=0,1.152=15,2g\\m_{H_2}=0,1.2=0,2g\end{matrix}\right.\)
\(m_{ddspứ}=5,6+200-0,1.2=205,4g\)
\(\left\{{}\begin{matrix}C\%_{FeSO_4}=\dfrac{15,2}{205,4}.100=7,4\%\\C\%_{H_2}=\dfrac{0,2}{205,4}.100=0,09\%\\C\%_{H_2SO_4\left(dư\right)}=\dfrac{29,4}{205,4}.100=14,31\%\end{matrix}\right.\)
Gọi \(\left\{{}\begin{matrix}n_{Mg}=x\left(mol\right)\\x_{Ca}=y\left(mol\right)\end{matrix}\right.\)
\(\Rightarrow\left\{{}\begin{matrix}24x+40y=17,6\\x=2y\end{matrix}\right.\Rightarrow\left\{{}\begin{matrix}x=0,4\\y=0,2\end{matrix}\right.\)
a)\(m_{Mg}=0,4\cdot24=9,6g\)
\(m_{Ca}=0,2\cdot40=8g\)
b)\(2Mg+O_2\underrightarrow{t^o}2MgO\)
\(2Ca+O_2\underrightarrow{t^o}2CaO\)
Từ hai pt: \(\Rightarrow\Sigma n_{O_2}=\dfrac{1}{2}n_{Mg}+\dfrac{1}{2}n_{Ca}=\dfrac{1}{2}\cdot0,4+\dfrac{1}{2}\cdot0,2=0,3mol\)
\(\Rightarrow m_{O_2}=0,3\cdot32=9,6g\)
\(V_{O_2}=0,3\cdot22,4=6,72l\)
\(\Rightarrow V_{kk}=5V_{O_2}=5\cdot6,72=33,6l\)
a)
Có \(\left\{{}\begin{matrix}24.n_{Mg}+40.n_{Ca}=17,6\\n_{Mg}=2.n_{Ca}\end{matrix}\right.\)
=> \(\left\{{}\begin{matrix}n_{Ca}=0,2\left(mol\right)\\n_{Mg}=0,4\left(mol\right)\end{matrix}\right.\)
=> \(\left\{{}\begin{matrix}m_{Ca}=0,2.40=8\left(g\right)\\m_{Mg}=0,4.24=9,6\left(g\right)\end{matrix}\right.\)
b)
PTHH: 2Ca + O2 --to--> 2CaO
0,2-->0,1
2Mg + O2 --to--> 2MgO
0,4--->0,2
=> \(V_{O_2}=\left(0,1+0,2\right).22,4=6,72\left(l\right)\)
\(V_{kk}=6,72.5=33,6\left(l\right)\)
PTHH: 2CO+O2to→2CO2 (1)
4H2+O2to→2H2O (2)
b) Ta có:
ΣnO2=\(\dfrac{9,6}{32}\)=0,3(mol)
nCO2=\(\dfrac{8,8}{44}\)=0,2(mol)
⇒{nO2(1)=0,1mol
nO2(2)=0,2mol
⇒{mCO=0,1⋅28=2,8(g)
mH2=0,2⋅2=0,4(g)
⇒%mCO=\(\dfrac{2,8}{2,8+0,4}\)⋅100%=87,5%
%mH2=12,5%
\(nO_2=\dfrac{9,6}{32}=0,3\left(mol\right)\)
\(nCO_2=\dfrac{8,8}{44}=0,2\left(mol\right)\)
\(2CO+O_2\underrightarrow{t^o}2CO_2\)
2 1 2 (mol)
0,2 0,1 0,2 (mol)
\(4H_2+O_2\underrightarrow{t^o}2H_2O\)
4 1 2 (mol)
0,8 0,2 0,4 (mol)
\(mCO=0,2.28=5,6\left(g\right)\)
\(mH_2=0,8.2=0,16\left(g\right)\)
\(\%mCO=\dfrac{5,6.100}{5,6+0,16}=97,22\%\)
\(\%mH_2=100-97,22=2,78\%\)