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\(n_{CuSO_4}=\dfrac{200.16\%}{160}=0,2\left(mol\right)\)
PTHH :
\(CuSO_4+2NaOH\rightarrow Cu\left(OH\right)_2\downarrow+Na_2SO_4\)
0,2 0,4 0,2 0,2
\(m_{NaOH}=0,4.40=16\left(g\right)\)
\(m_{ddNaOH}=\dfrac{16.100}{10}=160\left(g\right)\)
\(c,m_{Na_2SO_4}=0,2.142=28,4\left(g\right)\)
\(m_{ddNa_2SO_4}=200+160-\left(0,2.98\right)=340,4\left(g\right)\)
\(C\%_{Na_2SO_4}=\dfrac{28,4}{240,4}.100\%\approx8,34\%\)
\(d,PTHH:\)
\(Cu\left(OH\right)_2\underrightarrow{t^o}CuO+H_2O\)
0,2 0,2
\(m_{CuO}=0,2.80=16\left(g\right)\)
a, \(CuSO_4+2NaOH\rightarrow Cu\left(OH\right)_2+Na_2SO_4\)
b, \(m_{CuSO_4}=200.16\%=32\left(g\right)\Rightarrow n_{CuSO_4}=\dfrac{32}{160}=0,2\left(mol\right)\)
\(n_{NaOH}=2n_{CuSO_4}=0,4\left(mol\right)\Rightarrow m_{ddNaOH}=\dfrac{0,4.40}{10\%}=160\left(g\right)\)
c, \(n_{Cu\left(OH\right)_2}=n_{Na_2SO_4}=n_{CuSO_4}=0,2\left(mol\right)\)
\(\Rightarrow C\%_{Na_2SO_4}=\dfrac{0,2.142}{200+160-0,2.98}.100\%\approx8,34\%\)
d, \(Cu\left(OH\right)_2\underrightarrow{t^o}CuO+H_2O\)
\(n_{CuO}=n_{Cu\left(OH\right)_2}=0,2\left(mol\right)\Rightarrow m_{CuO}=0,2.80=16\left(g\right)\)
\(n_{Ca\left(OH\right)_2}=0,3\left(mol\right)\\ n_{H_3PO_4}=0,3\left(mol\right)\\ Vì:\dfrac{n_{Ca\left(OH\right)_2}}{n_{H_3PO_4}}=\dfrac{0,3}{0,3}=1\\ \Rightarrow Tạo.1.muối:CaHPO_4\\ Ca\left(OH\right)_2+H_3PO_4\rightarrow CaHPO_4+2H_2O\\ m_{\downarrow}=0\\ n_{CaHPO_4}=n_{Ca\left(OH\right)_2}=0,3\left(mol\right)\\ C_{MddCaHPO_4}=\dfrac{0,3}{0,3+0,3}=0,5\left(M\right)\)
a. PTHH: 3NaOH + AlCl3 ---> Al(OH)3↓ + 3NaCl (1)
Ta có: \(C_{\%_{NaOH}}=\dfrac{m_{NaOH}}{100}.100\%=12\%\)
=> mNaOH = 12(g)
=> \(n_{NaOH}=\dfrac{12}{40}=0,3\left(mol\right)\)
Ta lại có: \(C_{\%_{AlCl_3}}=\dfrac{m_{AlCl_3}}{200}.100\%=13,35\%\)
=> \(m_{AlCl_3}=26,7\left(g\right)\)
=> \(n_{AlCl_3}=\dfrac{26,7}{133,5}=0,2\left(mol\right)\)
Ta thấy: \(\dfrac{0,3}{3}< \dfrac{0,2}{1}\)
Vậy AlCl3 dư
Theo PT(1): \(n_{Al\left(OH\right)_3}=\dfrac{1}{3}.n_{NaOH}=\dfrac{1}{3}.0,3=0,1\left(mol\right)\)
=> \(m_{Al\left(OH\right)_3}=0,1.78=7,8\left(g\right)\)
b. Ta có: \(m_{dd_{NaCl}}=12+200-7,8=204,2\left(g\right)\)
Theo PT(1): \(n_{NaCl}=n_{NaOH}=0,3\left(mol\right)\)
=> \(m_{NaCl}=0,3.58,5=17,55\left(g\right)\)
=> \(C_{\%_{NaCl}}=\dfrac{17,55}{204,2}.100\%=8,59\%\)
c. PTHH: 2Al(OH)3 ---to---> Al2O3 + 3H2O (2)
Theo PT(2): \(n_{Al_2O_3}=\dfrac{1}{2}.n_{Al\left(OH\right)_3}=\dfrac{1}{2}.0,1=0,05\left(mol\right)\)
=> \(m_{Al_2O_3}=0,05.102=5,1\left(g\right)\)
PTHH: \(CuCl_2+2NaOH\rightarrow2NaCl+Cu\left(OH\right)_2\downarrow\)
\(Cu\left(OH\right)_2\xrightarrow[]{t^o}CuO+H_2O\)
Ta có: \(\left\{{}\begin{matrix}n_{CuCl_2}=0,2\cdot2=0,4\left(mol\right)\\n_{NaOH}=0,2\cdot2=0,4\left(mol\right)\end{matrix}\right.\)
Xét tỉ lệ: \(\dfrac{0,4}{1}>\dfrac{0,4}{2}\) \(\Rightarrow\) CuCl2 còn dư
\(\Rightarrow\left\{{}\begin{matrix}n_{NaCl}=0,4\left(mol\right)\\n_{Cu\left(OH\right)_2}=0,2\left(mol\right)=n_{CuO}=n_{CuCl_2\left(dư\right)}\end{matrix}\right.\) \(\Rightarrow\left\{{}\begin{matrix}m_{CuO}=0,2\cdot80=16\left(g\right)\\C_{M_{NaCl}}=\dfrac{0,4}{0,2+0,2}=1\left(M\right)\\C_{M_{CuCl_2}}=\dfrac{0,2}{0,4}=0,5\left(M\right)\\\end{matrix}\right.\)
\(n_{Na_2CO_3}=0,1.1=0,1\left(mol\right)\)
a. \(Na_2CO_3+Ba\left(OH\right)_2\rightarrow BaCO_3+2NaOH\)
0,1 0,1 0,1 0,2
b. \(m_{kt}=m_{BaCO_3}=0,1.197=19,7\left(g\right)\)
c. \(C\%_{Ba\left(OH\right)_2}=\dfrac{0,1.171.100}{200}=8,55\%\)
d. \(BaCO_3+2HCl\rightarrow BaCl_2+H_2O+CO_2\)
0,1 0,2
=> \(a=m_{dd.HCl}=\dfrac{0,2.36,5.100}{30}=\dfrac{73}{3}\left(g\right)\)
a.
\(Na_2CO_3+Ba\left(OH\right)_2\rightarrow BaCO_3+2NaOH\)
b.
\(n_{BaCO_3}=n_{Na_2CO_3}=0,2.1=0,2\left(mol\right)\\ m_{kt}=197.0,2=39,4\left(g\right)\)
c.
\(n_{Ba\left(OH\right)_2}=n_{Na_2CO_3}=0,2\left(mol\right)\\ C\%_{Ba\left(OH\right)_2}=\dfrac{0,2.171.100\%}{200}=17,1\%\)
PTHH 3ZnCl2+2H3PO4----->Zn3(PO4)2+6HCl
\(n_{ZnCl_2}\)=0,3.2=0,6(mol)
Theo phương trình =>\(\dfrac{1}{3}n_{ZnCl_2}=n_{Zn_3\left(PO_4\right)_2}=0,2\left(mol\right)\)
=>\(m_{Zn_3\left(PO_4\right)_2}\)=0,2.385=77(g)
Theo phương trình =>\(2n_{ZnCl_2}=n_{HCl}=1,2\left(mol\right)\)
=>\(C_{M_{HCl}}\)=\(\dfrac{1,2}{0,2+0,3}=2,4M\)