Đáp án:

 m = 1 gam

$\begin{array}{c}{C}_{M{K}^{+}}=0,5M\\ C_{MC{l}^{-}}=0,1M\\ C_{MC{O}_3^{2-}}=0,2M\end{array}$

Giải thích các bước giải:

$n_{K_{2}C{O}_3}=0,05$ mol

$\to n_{K^{+}}=0,05.2=0,1mol,n_{C{O}_3^{2-}}=0,05mol$

$n_{CaC{l}_2}=0,01$ mol

$\to n_{C{a}^{2+}}=0$

Cm CO3² là 0.25 mà taa

\(n_{K_2CO_3}=0.1\cdot0.5=0.05\left(mol\right)\)

\(n_{CaCl_2}=0.1\cdot0.1=0.01\left(mol\right)\)

\(K_2CO_3+CaCl_2\rightarrow CaCO_3+2KCl\)

Lập tỉ lệ : 

\(\dfrac{0.05}{1}>\dfrac{0.01}{1}\) \(\Rightarrow K_2CO_3dư\)

\(n_{CaCO_3}=n_{CaCl_2}=0.01\left(mol\right)\)

\(m=0.01\cdot100=1\left(g\right)\)

\(b.\)

Các chất có trong dung dịch : 

\(K_2CO_3\left(dư\right):0.04\left(mol\right),KCl:0.02\left(mol\right)\)

\(V=0.1+0.1=0.2\left(l\right)\)

\(\left[K^+\right]=\dfrac{0.04\cdot2+0.02}{0.2}=0.5\left(M\right)\)

\(\left[CO_3^{2-}\right]=\dfrac{0.04}{0.2}=0.2\left(M\right)\)

\(\left[Cl^-\right]=\dfrac{0.02}{0.2}=0.1\left(M\right)\)

\(n_{FeCl_3}=0,1.0,1=0,01mol\)

\(n_{NaOH}=0,4.0,1=0,04mol\)

FeCl₃+3NaOH\(\rightarrow\)Fe(OH)₃\(\downarrow\)+3NaCl

-Tỉ lệ: \(\dfrac{0,01}{1}< \dfrac{0,04}{3}\)\(\rightarrow\)FeCl₃ hết, NaOH dư

\(n_{NaOH\left(pu\right)}=3n_{FeCl_3}=0,03mol\)

\(n_{NaOH\left(dư\right)}=0,04-0,03=0,01mol\)

\(n_{NaCl}=3n_{FeCl_3}=0,03mol\)

-Dung dịch D có NaCl 0,03 mol và NaOH dư 0,01 mol

[Na⁺]=\(\dfrac{0,03+0,01}{0,1+0,4}=0,08M\)

[Cl^-]=\(\dfrac{0,03}{0,5}=0,06M\)

[OH^-]=\(\dfrac{0,01}{0,5}=0,02M\)

\(n_{Fe\left(OH\right)_3}=n_{FeCl_3}=0,01mol\)

m=\(m_{Fe\left(OH\right)_3}=0,01.107=1,07g\)

Đề có cho thể tích dd H₂SO₄ không bạn nhỉ?

a) Ta có: \(n_{Al\left(NO_3\right)_3}=\dfrac{4,26}{213}=0,02\left(mol\right)\) \(\Rightarrow\left\{{}\begin{matrix}n_{Al^+}=0,02\left(mol\right)\\n_{NO_3^-}=0,06\left(mol\right)\end{matrix}\right.\)

\(\Rightarrow\left\{{}\begin{matrix}\left[Al^+\right]=\dfrac{0,02}{0,1}=0,2\left(M\right)\\\left[NO_3^-\right]=\dfrac{0,06}{0,1}=0,6\left(M\right)\end{matrix}\right.\)

b) Ta có: \(\left[Na^+\right]=0,1+0,02\cdot2+0,3=0,304\left(M\right)\)

c) Bạn xem lại đề !!

\(a.n_{NaCl}=0,2.2=0,4\left(mol\right)\\ n_{CaCl_2}=0,5.0,2=0,1\left(mol\right)\\ \left[Na^+\right]=\left[NaCl\right]=\dfrac{0,4.1}{0,2+0,2}=1\left(M\right)\\ \left[Ca^{2+}\right]=\left[CaCl_2\right]=\dfrac{0,1.1}{0,2+0,2}=0,25\left(M\right)\\ \left[Cl^-\right]=1.1+0,25.2=1,5\left(M\right)\)

\(b.\\ n_{MgSO_4}=\dfrac{12}{120}=0,1\left(mol\right)\\ n_{Al_2\left(SO_4\right)_3}=\dfrac{34,2}{342}=0,1\left(mol\right)\\ \left[Mg^{2+}\right]=\left[MgSO_4\right]=\dfrac{0,1}{0,2+0,3}=0,2\left(M\right)\\ \left[Al^{3+}\right]=2.\left[Al_2\left(SO_4\right)_3\right]=2.\dfrac{0,1}{0,2+0,3}=0,4\left(M\right)\\ \left[SO^{2-}_4\right]=0,2.1+0,2.3=0,8\left(M\right)\)