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a) \(n_{C_2H_4Br_2}=\dfrac{18,8}{188}=0,1\left(mol\right)\)
PTHH: C2H4 + Br2 --> C2H4Br2
0,1<----0,1<---0,1
=> \(m_{Br_2}=0,1.160=16\left(g\right)\)
b)
\(\%V_{C_2H_4}=\dfrac{0,1.22,4}{4}.100\%=56\%\)
=> \(\%V_{CH_4}=100\%-56\%=44\%\)
c) \(n_{CH_4}=\dfrac{4.44\%}{22,4}=\dfrac{11}{140}\left(mol\right)\)
PTHH: CH4 + 2O2 --to--> CO2 + 2H2O
\(\dfrac{11}{140}\)-->\(\dfrac{11}{70}\)
C2H4 + 3O2 --to--> 2CO2 + 2H2O
0,1---->0,3
=> \(V_{O_2}=\left(\dfrac{11}{70}+0,3\right).22,4=10,24\left(l\right)\)
=> Vkk = 10,24.5 = 51,2 (l)
a)
C2H4 + Br2 --> C2H4Br2
b) \(n_{Br_2}=\dfrac{32}{160}=0,2\left(mol\right)\)
PTHH: C2H4 + Br2 --> C2H4Br2
0,2<---0,2
=> \(\%V_{C_2H_4}=\dfrac{0,2.22,4}{8,96}.100\%=50\%\)
=> \(\%V_{CH_4}=100\%-50\%=50\%\)
Bài 14 :
Vì metan không tác dụng với Brom nên :
\(n_{C2H4Br2}=\dfrac{4,7}{188}=0,025\left(mol\right)\)
a) Pt : \(C_2H_4+Br_2\rightarrow C_2H_4Br_{2|}\)
1 1 1
0,025 0,025
b) \(n_{C2H4}=\dfrac{0,025.1}{1}=0,025\left(mol\right)\)
\(V_{C2H4\left(dktc\right)}=0,025.22,4=0,56\left(l\right)\)
\(V_{CH4\left(dktc\right)}=1,4-0,56=0,84\left(l\right)\)
0/0VCH4 = \(\dfrac{0,84.100}{1,4}=60\)0/0
0/0VC2H4 = \(\dfrac{0,56.100}{1,4}=40\)0/0
Chúc bạn học tốt
a.b.\(m_{tăng}=m_{C_2H_4}=2,8g\)
\(n_{C_2H_4}=\dfrac{2,8}{28}=0,1mol\)
\(C_2H_4+Br_2\rightarrow C_2H_4Br_2\)
\(n_{hh}=\dfrac{6,72}{22,4}=0,3mol\)
\(\rightarrow m_{CH_4}=\left(0,3-0,1\right).16=3,2g\)
\(\rightarrow\left\{{}\begin{matrix}\%m_{C_2H_4}=\dfrac{2,8}{2,8+3,2}.100=46,67\%\\\%m_{CH_4}=100\%-46,67\%=53,33\%\end{matrix}\right.\)
c.\(CH_4+2O_2\rightarrow\left(t^o\right)CO_2+2H_2O\)
0,2 0,2 ( mol )
\(C_2H_4+3O_2\rightarrow\left(t^o\right)2CO_2+2H_2O\)
0,1 0,2 ( mol )
\(V_{CO_2}=\left(0,2+0,2\right).22,4=8,96l\)
a) \(C_2H_4 + Br_2 \to C_2H_4Br_2\)
b)
\(n_{C_2H_4} = n_{Br_2} = \dfrac{5,6}{160} = 0,035(mol)\\ \%V_{C_2H_4} = \dfrac{0,035.22,4}{0,86}.100\% = 91,16\%\\ \%V_{CH_4} = 100\% - 91,16\% = 8,84\%\)
a, PT: \(C_2H_4+Br_2\rightarrow C_2H_4Br_2\)
b, - Khí thoát ra là CH4.
⇒ VCH4 = 4,48 (l)
\(\Rightarrow\left\{{}\begin{matrix}\%V_{CH_4}=\dfrac{4,48}{11,2}.100\%=40\%\\\%V_{C_2H_4}=100-40=60\%\end{matrix}\right.\)
a) C2H4 + Br2 --> C2H4Br2
b) nBr2 = 2.0,15 = 0,3 (mol)
PTHH: C2H4 + Br2 --> C2H4Br2
0,3<-- 0,3----->0,3
=> \(m_{C_2H_4Br_2}=0,3.188=56,4\left(g\right)\)
c) \(\%V_{C_2H_4}=\dfrac{0,3.22,4}{22,4}.100\%=30\%\)
\(\%V_{CH_4}=100\%-30\%=70\%\)
n\(_{C_2H_4Br_2}\) = \(\frac{18,8}{188}\)= 0,1 (mol)
a,PTHH :
C\(_2\)H\(_4\) + Br\(_2\) \(\rightarrow\) C\(_2\)H\(_4\)Br\(_2\)
(mol) 0,1 ← 0,1
b, n\(_{hh}\) = \(\frac{8}{22,4}\) = \(\frac{5}{14}\) (mol)
\(\Rightarrow\) n\(_{CH_4}\) = n\(_{hh}\)- n\(_{C_2H_4}\) = \(\frac{5}{14}\) - 0,1 = \(\frac{9}{35}\) (mol)
m\(_{CH_4}\) = \(\frac{9}{35}\) * 16 \(\sim\) 4,1(gam)
m\(_{C_2H_4}\) = 0,1 * 28 = 2,8 (gam)
Vậy :
%m\(_{CH_4}\) = \(\frac{4,1}{4,1+2,8}\cdot100\%\) \(\sim\) 59,4 (%)
%m\(_{C_2H_4}\) = 100% - 59,4% \(\sim\) 40,6 (%)