a, PT: \(C_2H_4+Br_2\rightarrow C_2H_4Br_2\)

\(C_2H_2+2Br_2\rightarrow C_2H_2Br_4\)

Giả sử: \(\left\{{}\begin{matrix}n_{C_2H_4}=x\left(mol\right)\\n_{C_2H_2}=y\left(mol\right)\end{matrix}\right.\)

\(\Rightarrow x+y=\dfrac{1,344}{22,4}=0,06\left(1\right)\)

Ta có: \(n_{Br_2}=\dfrac{16}{160}=0,1\left(mol\right)\)

Theo PT: \(n_{Br_2}=n_{C_2H_4}+2n_{C_2H_2}=x+2y\left(mol\right)\)

⇒ x + 2y = 0,1 (2)

Từ (1) và (2) \(\Rightarrow\left\{{}\begin{matrix}x=0,02\left(mol\right)\\y=0,04\left(mol\right)\end{matrix}\right.\)

\(\Rightarrow\left\{{}\begin{matrix}\%V_{C_2H_4}=\dfrac{0,02}{0,06}.100\%\approx33,33\%\\\%\text{ }V_{C_2H_2}\approx66,67\%\end{matrix}\right.\)

b, Ta có: 1/2 hỗn hợp khí gồm: 0,01 mol C₂H₄ và 0,02 mol C₂H₂.

PT: \(C_2H_4+3O_2\underrightarrow{t^o}2CO_2+2H_2O\)

\(2C_2H_2+5O_2\underrightarrow{t^o}4CO_2+2H_2O\)

Theo PT: \(n_{CO_2}=2n_{C_2H_4}+2n_{C_2H_2}=0,06\left(mol\right)\)

\(CO_2+Ca\left(OH\right)_2\rightarrow CaCO_{3\downarrow}+H_2O\)

Theo PT: \(n_{CaCO_3}=n_{CO_2}=0,06\left(mol\right)\)

\(\Rightarrow m_{cr}=m_{CaCO_3}=0,06.100=6\left(g\right)\)

Bạn tham khảo nhé!

a, Ta có: \(n_{CH_4}+n_{C_2H_4}=\dfrac{3,36}{22,4}=0,15\left(mol\right)\left(1\right)\)

\(16n_{CH_4}+28n_{C_2H_4}=3\left(2\right)\)

Từ (1) và (2) \(\Rightarrow\left\{{}\begin{matrix}n_{CH_4}=0,1\left(mol\right)\\n_{C_2H_4}=0,05\left(mol\right)\end{matrix}\right.\)

\(\Rightarrow\left\{{}\begin{matrix}\%m_{CH_4}=\dfrac{0,1.16}{3}.100\%\approx53,33\%\\\%m_{C_2H_4}\approx46,67\%\end{matrix}\right.\)

- Ở cùng điều kiện nhiệt độ và áp suất, % số mol cũng là %V.

\(\Rightarrow\left\{{}\begin{matrix}\%V_{CH_4}=\dfrac{0,1}{0,15}.100\%\approx66,67\%\\\%V_{C_2H_4}\approx33,33\%\end{matrix}\right.\)

b, PT: \(C_2H_4+Br_2\rightarrow C_2H_4Br_2\)

Có: m _tăng = m_C2H4 = 0,05.28 = 1,4 (g)

a) \(n_{hh}=\dfrac{3,36}{22,4}=0,15\left(mol\right)\)

Gọi \(\left\{{}\begin{matrix}n_{CH_4}=a\left(mol\right)\\n_{C_2H_4}=b\left(mol\right)\end{matrix}\right.\Rightarrow\left\{{}\begin{matrix}a+b=0,15\\16a+28b=3\end{matrix}\right.\Leftrightarrow\left\{{}\begin{matrix}a=0,1\\b=0,05\end{matrix}\right.\)

\(\Rightarrow\left\{{}\begin{matrix}\%V_{CH_4}=\dfrac{0,1}{0,15}.100\%=66,67\%\\\%V_{C_2H_4}=100\%-66,67\%=33,33\%\end{matrix}\right.\)

\(\Rightarrow\left\{{}\begin{matrix}\%m_{CH_4}=\dfrac{0,1.16}{3}.100\%=53,33\%\\\%m_{C_2H_4}=100\%-53,33\%=46,67\%\end{matrix}\right.\)

b) \(m=m_{C_2H_4}=0,05.28=1,4\left(g\right)\)

\(\left\{{}\begin{matrix}C_2H_4:x\left(mol\right)\\C_2H_2:y\left(mol\right)\end{matrix}\right.\)⇒ x + y = \(\dfrac{6,72}{22,4}=0,3\left(1\right)\)

\(C_2H_4 + Br_2 \to C_2H_4Br_2\\ C_2H_2 + 2Br_2 \to C_2H_2Br_4\)

Theo PTHH : 

x + 2y = \(\dfrac{64}{160} = 0,4(2)\)

Từ (1)(2) suy ra: x = 0,2 ; y = 0,1

Vậy :

\(\%V_{C_2H_4} = \dfrac{0,2}{0,3}.100\% = 66,67\%\\ \%V_{C_2H_2} = 100\% - 66,67\% = 33,33\%\)

\(n_{CO_2}=0.3\left(mol\right)\)

\(Đặt:n_{C_2H_2}=a\left(mol\right),n_{C_2H_4}=b\left(mol\right)\)

\(n_{Br_2}=\dfrac{64}{160}=0.4\left(mol\right)\)

\(C_2H_2+2Br_2\rightarrow C_2H_2Br_4\)

\(C_2H_4+Br_2\rightarrow C_2H_4Br_2\)

\(\left\{{}\begin{matrix}a+b=0.3\\2a+b=0.4\end{matrix}\right.\)

\(\Leftrightarrow\left\{{}\begin{matrix}a=0.1\\b=0.2\end{matrix}\right.\)

\(\%V_{C_2H_2}=\dfrac{0.1}{0.3}\cdot100\%=33.33\%\)

\(\%V_{C_2H_4}=66.67\%\)

a) 

n_Br2 = 0,2.0,2 = 0,04 (mol)

n_CaCO3 = \(\dfrac{10}{100}=0,1\left(mol\right)\)

PTHH: C₂H₄ + Br₂ --> C₂H₄Br₂

            0,04<--0,04---->0,04

            C₂H₄ + 3O₂ --t^o--> 2CO₂ + 2H₂O

             0,04--------------->0,08

            CH₄ + 2O₂ --t^o--> CO₂ + 2H₂O

           0,02<-------------0,02

             Ca(OH)₂ + CO₂ --> CaCO₃ + H₂O

                                 0,1<------0,1

=> \(\left\{{}\begin{matrix}\%V_{CH_4}=\dfrac{0,02}{0,02+0,04}.100\%=33,33\%\\\%V_{C_2H_4}=\dfrac{0,04}{0,02+0,04}.100\%=66,67\%\end{matrix}\right.\)

b) m_C2H4Br2 = 0,04.188 = 7,52 (g)

\(n_{C_3H_3Ag}=\dfrac{7,35}{147}=0,05\left(mol\right)\)

=> \(n_{C_3H_4}=0,05\left(mol\right)\)

\(n_{Br_2}=\dfrac{6,4}{160}=0,04\left(mol\right)\)

=> \(n_{C_2H_4}=0,04\left(mol\right)\)

=> \(\left\{{}\begin{matrix}\%C_3H_4=\dfrac{0,05.40}{5,52}.100\%=36,23\%\\\%C_2H_4=\dfrac{0,04.28}{5,52}.100\%=20,29\%\\\%C_2H_6=100\%-36,23\%-20,29\%=43,48\%\end{matrix}\right.\)

=> A

Ta có: \(n_{Br_2}=\dfrac{1,6}{160}=0,01\left(mol\right)\)

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

Theo PT: \(n_{C_2H_4}=n_{Br_2}=0,01\left(mol\right)\)

\(\Rightarrow\%V_{C_2H_4}=\dfrac{0,01.22,4}{0,5}.100\%=44,8\%\)

\(\Rightarrow\%V_{CH_4}=100-44,8=55,2\%\)

a) Các phương trình phản ứng:

C₂H₄  +  Br₂  → C₂H₄Br₂

C₂H₂  +  2Br₂ →  C₂H₂Br₄

C₂H₂   +  Ag₂O → C₂Ag₂  + H₂O            

Hay    

C₂H₂   +  2AgNO₃  +  2NH₃ → C₂Ag₂  +  2NH₄NO₃            

b) Gọi a, b, c lần lượt là số mol của CH₄, C₂H₄, C₂H₂ trong 4,3gam hỗn hợp T.

– Số mol Br_­2 = 0,15 (mol); số mol kết tủa = số mol C₂H₂ = 0,075 (mol); số mol T = 0,3 (mol). Do đó n_T = 4n_C2H2  

– Ta có hệ phương trình: 

– Suy ra % thể tích mỗi khí trong T:

%VCH₄ = 50%; %VC₂H₂ = %VC₂H₄ = 25%