a.\(m_{Br_2}=m_{C_2H_4}=11,2g\)

\(n_{hh}=\dfrac{13,44}{22,4}=0,6mol\)

\(n_{C_2H_4}=\dfrac{11,2}{28}=0,4mol\)

\(\%V_{C_2H_4}=\dfrac{0,4}{0,6}.100=66,66\%\)

\(\%V_{CH_4}=100\%-66,66\%=33,34\%\)

\(m_{CH_4}=\left(0,6-0,4\right).16=3,2g\)

\(\%m_{C_2H_4}=\dfrac{11,2}{11,2+3,2}.100=77,77\%\)

\(\%m_{CH_4}=100\%-77,77\%=22,23\%\)

b.

\(CH_4+2O_2\rightarrow\left(t^o\right)CO_2+2H_2O\)

0,2        0,4                                    ( mol )

\(C_2H_4+5O_2\rightarrow\left(t^o\right)2CO_2+2H_2O\)

 0,4         2                                          ( mol )

\(V_{kk}=\left(2+0,4\right).22,4.5=53,76.5=268,8l\)

Gọi số mol  C 2 H 2 và  C 2 H 4  trong hỗn hợp là x, y.

Ta có x + y = 6,72/22,4 = 0,3 mol

2 C 2 H 2  + 5 O 2  → 4C O 2  + 2 H 2 O

C 2 H 4  + 3 O 2  → 2C O 2  + 2 H 2 O

Theo phương trình hoá học của phản ứng cháy, ta có :

n CO 2  = 2x + 2y =>  m CO 2  = 44(2x + 2y)

n H 2 O  = x + 2y →  m H 2 O  = 18 (x + 2y)

Theo đề bài, khối lượng bình  Ca OH 2  tăng lên chính là khối lượng của C O 2 và  H 2 O . Vậy :

m CO 2  +  m H 2 O  = 44(2x + y) + 18 (x + 2y) = 33,6g

Ta có các phương trình : x + y = 0,3

106x + 124y = 33,6

Giải ra ta được : x = 0,2 ; y = 0,1.

% V C 2 H 2  = 0,2x22,4/6,72 x 100% = 66,67%

% V C 2 H 4  = 33,33%

n CO 2  = 2(x+y) = 0,6 mol =  n CaCO 3

m CaCO 3  = 0,6 x 100 = 60g

PTHH: \(CH_4+2O_2\xrightarrow[]{t^o}CO_2+2H_2O\)

Ta có: \(n_{CO_2}=\dfrac{1,68}{22,4}=0,075\left(mol\right)=n_{CH_4}\)

Đặt \(\left\{{}\begin{matrix}n_{C_2H_4}=a\left(mol\right)\\n_{C_2H_2}=b\left(mol\right)\end{matrix}\right.\) \(\Rightarrow a+b=\dfrac{5,04}{22,4}-0,075=0,15\)  (1)

PTHH: \(C_2H_4+Br_2\rightarrow C_2H_4Br_2\)

            \(C_2H_2+2Br_2\rightarrow C_2H_2Br_4\)

Theo PTHH: \(28a+26b=4,1\)  (2)

Từ (1) và (2) \(\Rightarrow\left\{{}\begin{matrix}a=n_{C_2H_4}=0,1\left(mol\right)\\b=n_{C_2H_2}=0,05\left(mol\right)\end{matrix}\right.\)

Mặt khác: \(n_{hh}=\dfrac{5,04}{22,4}=0,225\left(mol\right)\) \(\Rightarrow\left\{{}\begin{matrix}\%V_{CH_4}=\dfrac{0,075}{0,225}\cdot100\%\approx33,33\%\\\%V_{C_2H_4}=\dfrac{0,1}{0,225}\cdot100\%\approx44,44\%\\\%V_{C_2H_2}=22,23\%\end{matrix}\right.\)

\(a,n_{hhkhí\left(C_2H_4,C_2H_2\right)}=\dfrac{6,72}{22,4}=0,3\left(mol\right)\\ n_{Br_2}=\dfrac{80}{160}=0,5\left(mol\right)\\ Gọi\left\{{}\begin{matrix}n_{C_2H_4}=a\left(mol\right)\\n_{C_2H_2}=b\left(mol\right)\end{matrix}\right.\\ PTHH:C_2H_4+Br_2\rightarrow C_2H_4Br_2\\ Mol:a\rightarrow a\\ C_2H_2+2Br_2\rightarrow C_2H_2Br_4\\ Mol:b\rightarrow2b\\ Hệ.pt\left\{{}\begin{matrix}a+b=0,3\\a+2b=0,5\end{matrix}\right.\\ \Leftrightarrow\left\{{}\begin{matrix}a=0,1\left(mol\right)\\b=0,2\left(mol\right)\end{matrix}\right.\\ \%V_{C_2H_4}=\dfrac{0,1}{0,3}=33,33\%\\ \%V_{C_2H_2}=100\%-33,335=66,67\%\)

\(b,PTHH:\\ C_2H_4+3O_2\underrightarrow{t^o}2CO_2+2H_2O\\ Mol:0,1\rightarrow0,3\rightarrow0,2\\ 2C_2H_2+5O_2\underrightarrow{t^o}4CO_2+2H_2O\\ Mol:0,2\rightarrow0,25\rightarrow0,4\\ n_{CO_2}=0,2+0,4=0,6\left(mol\right)\\ PTHH:Ca\left(OH\right)_2+CO_2\rightarrow CaCO_3+H_2O\\ Mol:0,6\rightarrow0,6\rightarrow0,6\\ m_{CaCO_3}=0,6.100=60\left(g\right)\)

\(n_{hhkhí}=\dfrac{7,84}{22,4}=0,35\left(mol\right)\\ m_{tăng}=m_{C_2H_4}=4,2\left(g\right)\\ n_{C_2H_4}=\dfrac{4,2}{28}=0,15\left(mol\right)\\ n_{CH_4}=0,35-0,15=0,2\left(mol\right)\\ \left\{{}\begin{matrix}\%V_{C_2H_4}=\dfrac{0,15}{0,35}=42,85\%\\\%V_{CH_4}=100\%-42,85\%=57,15\%\end{matrix}\right.\)

PTHH:

C₂H₄ + 3O₂ --t^o--> 2CO₂ + 2H₂O

0,15 ------------------> 0,3

CH₄ + O₂ --t^o--> CO₂ + 2H₂O

0,2 -----------------> 0,2

Ca(OH)₂ + CO₂ ---> CaCO₃ + H₂O

                   0,5 -------> 0,5

\(m_{CaCO_3}=0,5.100=50\left(g\right)\)

\(\left\{{}\begin{matrix}CH_4:x\left(mol\right)\\C_2H_4:y\left(mol\right)\end{matrix}\right.\)⇒ x + y = \(\dfrac{8,96}{22,4} = 0,4\)(1)

\(m_{CO_2} + m_{H_2O} = m_{bình\ tăng} = 45,2(gam)\)

Bảo toàn nguyên tố với C:\(n_{CO_2} = x + 2y(mol)\)

Bảo toàn nguyên tố với H:\(n_{H_2O} = 2x + 2y (mol)\)

Suy ra :(x + 2y).44 + (2x+2y).18 = 45,2(2)

Từ (1)(2) suy ra: x = 0,1 ; y = 0,3

Vậy :

\(\%V_{CH_4} = \dfrac{0,1}{0,4}.100\% = 25\%\\ \%V_{C_2H_4} = 100\% - 25\% = 75\%\\ CO_2 + Ca(OH)_2 \to CaCO_3 + H_2O\\ n_{CaCO_3} = n_{CO_2} = 0,1 + 0,3.2 = 0,7(mol)\\ \Rightarrow m = 0,7.100 = 70(gam)\)

a)

\(CH_4 + 2O_2 \xrightarrow{t^o} CO_2 + 2H_2O\\ C_2H_4 + 3O_2 \xrightarrow{t^o} 2CO_2 + 2H_2O\\ CO_2 + Ca(OH)_2 \to CaCO_3 + H_2O\\ C_2H_4 + Br_2 \to C_2H_4Br_2\\ b) n_{C_2H_4} = n_{Br_2} = \dfrac{8}{160}=0,05(mol)\\ n_{CaCO_3} = n_{CO_2} = n_{CH_4} + 2n_{C_2H_4} = \dfrac{50}{100} = 0,5(mol)\\ \Rightarrow n_{CH_4} = 0,5 - 0,05.2 = 0,4(mol)\\ \%m_{CH_4}= \dfrac{0,4.16}{0,4.16 + 0,05.28}.100\% = 82,05\%\\ \%m_{C_2H_4} =100\% - 82,05\% = 17,95\%\)

Gọi \(\left\{{}\begin{matrix}n_{CO}=a\left(mol\right)\\n_{CH_4}=b\left(mol\right)\end{matrix}\right.\Rightarrow28a+16b=2,04\left(1\right)\)

\(n_{CaCO_3}=\dfrac{9,6}{100}=0,096\left(mol\right)\)

PTHH: \(2CO+O_2\xrightarrow[]{t^o}2CO_2\)

               a------------>a

             \(CH_4+2O_2\xrightarrow[]{t^o}CO_2+2H_2O\)

               b---------------->b

            \(Ca\left(OH\right)_2+CO_2\rightarrow CaCO_3\downarrow+H_2O\)

                                0,096<--0,096

`=> a + b = 0,096 (2)`

`(1), (2) => a = 0,042; b = 0,054`

\(\Rightarrow\left\{{}\begin{matrix}\%V_{CO}=\dfrac{0,042}{0,042+0,054}.100\%=43,75\%\\\%V_{CH_4}=100\%-43,75\%=56,25\%\end{matrix}\right.\)