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a, \(n_{NaOH}=0,15.0,2=0,03\left(mol\right)=n_{Na^+}=n_{OH^-}\)
\(n_{KOH}=0,15.0,2=0,03\left(mol\right)=n_{K^+}=n_{OH^-}\)
⇒ ΣnOH- = 0,03 + 0,03 = 0,06 (mol)
\(n_{HCl}=0,25.0,4=0,1\left(mol\right)=n_{H^+}=n_{Cl^-}\)
\(H^++OH^-\rightarrow H_2O\)
0,06____0,06 (mol) ⇒ nH+ dư = 0,1 - 0,06 = 0,04 (mol)
\(\left[Na^+\right]=\left[K^+\right]=\dfrac{0,03}{0,15+0,25}=0,075\left(M\right)\)
\(\left[H^+\right]=\dfrac{0,04}{0,15+0,25}=0,1\left(M\right)\)
\(\left[Cl^-\right]=\dfrac{0,1}{0,15+0,25}=0,25\left(M\right)\)
b, pH = -log[H+] = 1
a, \(\left[Na^+\right]=0,1\)
\(\left[K^+\right]=0,1\)
\(\left[OH^-\right]=0,2\)
\(\left[SO_4^{2-}\right]=0,2\)
\(\left[H^+\right]=0,4\)
b, \(n_{H^+}=0,1.0,4=0,04\left(mol\right)\)
\(n_{OH^-}=0,1.0,2=0,02\left(mol\right)\)
\(H^++OH^-\rightarrow H_2O\)
\(\Rightarrow n_{H^+dư}=0,02\left(mol\right)\)
\(\Rightarrow\left[H^+\right]=\dfrac{0,02}{200}=10^{-4}\)
\(\Rightarrow pH=4\)
$n_{NaOH} = n_{KOH} = 0,1.0,1 = 0,01(mol)$
$n_{H_2SO_4} = 0,02(mol)$
OH- + H+ → H2O
Bđ : 0,01...0,04..................(mol)
Pư : 0,01...0,01...................(mol)
Sau pư : 0......0,03...................(mol)
$V_{dd} = 0,1 + 0,1 = 0,2(lít)$
Vậy :
$[K^+] = [Na^+] = \dfrac{0,01}{0,2} = 0,05M$
$[H^+] = \dfrac{0,03}{0,2} = 0,15M$
$[SO_4^{2-}] = \dfrac{0,02}{0,2} = 0,1M$
b)
$pH = -log(0,15) = 0,824$
`100mL=0,1L`
`n_{H^+}=0,1.0,05.2+0,1.0,1=0,02(mol)`
`n_{SO_4^{2-}}=0,1.0,05=0,005(mol)`
`n_{OH^-}=0,1.0,2+0,1.0,1.2=0,04(mol)`
`n_{Ba^{2+}}=0,1.0,1=0,01(mol)`
`Ba^{2+}+SO_4^{2-}->BaSO_4`
Do `0,01>0,005->` Tính theo `SO_4^{2-}`
`n_{BaSO_4}=n_{SO_4^{2-}}=0,005(mol)`
`->m_↓=0,005.233=1,165(g)`
`H^{+}+OH^{-}->H_2O`
Do `0,02<0,04->OH^-` dư
`n_{OH^{-}\ pu}=n_{H^+}=0,02(mol)`
`->n_{OH^{-}\ du}=0,04-0,02=0,02(mol)`
Trong X: `[OH^-]={0,02}/{0,1+0,1}=0,1M`
`->pH=14-pOH=14+lg[OH^-]=13`
a, \(n_{HCl}=0,2.0,1=0,02\left(mol\right)=n_{H^+}=n_{Cl^-}\)
\(n_{H_2SO_4}=0,2.0,15=0,03\left(mol\right)=n_{SO_4^{2-}}\) \(\Rightarrow n_{H^+}=2n_{H_2SO_4}=0,06\left(mol\right)\)
\(\Rightarrow\Sigma n_{H^+}=0,02+0,06=0,08\left(mol\right)\)
\(n_{Ba\left(OH\right)_2}=0,3.0,05=0,015\left(mol\right)=n_{Ba^{2+}}\)
\(\Rightarrow n_{OH^-}=2n_{Ba\left(OH\right)_2}=0,03\left(mol\right)\)
\(H^++OH^-\rightarrow H_2O\)
0,03___0,03 (mol) ⇒ nH+ dư = 0,05 (mol)
\(Ba^{2+}+SO_4^{2-}\rightarrow BaSO_4\)
0,015___0,015______0,015 (mol) ⇒ nSO42- dư = 0,015 (mol)
⇒ m = mBaSO4 = 0,015.233 = 3,495 (g)
\(\left[Cl^-\right]=\dfrac{0,02}{0,2+0,3}=0,04\left(M\right)\)
\(\left[H^+\right]=\dfrac{0,05}{0,2+0,3}=0,1\left(M\right)\)
\(\left[SO_4^{2-}\right]=\dfrac{0,015}{0,2+0,3}=0,03\left(M\right)\)
b, pH = -log[H+] = 1
Đáp án A
∑ nH+ = 2nH2SO4 + nHCl = 2. 0,1.0,05 + 0,1.0,1 = 0,02 (mol)
∑ nOH- = nNaOH + 2nBa(OH)2 = 0,1.0,2 + 2. 0,1.0,1 = 0,04 (mol)
H+ + OH- → H2O
0,02 → 0,02
=> nOH- dư = 0,04 – 0,02 = 0,02 (mol)
=> [OH-] = n: V = 0,02 : 0,2 = 0,01 M
pH = 14 + log(OH-) = 14 + (-1) = 13
Chú ý:
pH được tính theo giá trị của log[H+] chứ không phải log [OH-]
\(n_{NaOH}=0,1.0,2=0,02\left(mol\right)\\ n_{HCl}=0,3.0,1=0,03\left(mol\right)\\ NaOH+HCl\rightarrow NaCl+H_2O\\ Vì:\dfrac{0,02}{1}< \dfrac{0,03}{1}\Rightarrow HCldư\\ n_{HCl\left(dư\right)}=0,03-0,02=0,01\left(mol\right)\\ \left[H^+\right]=\left[HCl_{dư}\right]=\dfrac{0,01}{0,1+0,1}=0,05\left(M\right)\\ \Rightarrow D\)
a, \(n_{HCl}=0,1.0,2=0,02\left(mol\right)=n_{H^+}=n_{Cl^-}\)
\(n_{H_2SO_4}=0,1.0,2=0,02\left(mol\right)=n_{SO_4^{2-}}\) \(\Rightarrow n_{H^+}=2n_{H_2SO_4}=0,04\left(mol\right)\)
\(n_{NaOH}=0,3.0,4=0,12\left(mol\right)=n_{Na^+}=n_{OH^-}\)
\(\Rightarrow\sum n_{H^+}=0,02+0,04=0,06\left(mol\right)\)
\(H^++OH^-\rightarrow H_2O\)
0,06__0,06 (mol)
⇒ nOH- dư = 0,12 - 0,06 = 0,06 (mol)
\(\Rightarrow\left\{{}\begin{matrix}\left[Cl^-\right]=\dfrac{0,02}{0,1+0,3}=0,05\left(M\right)\\\left[SO_4^{2-}\right]=\dfrac{0,02}{0,1+0,3}=0,05\left(M\right)\\\left[Na^+\right]=\dfrac{0,12}{0,1+0,3}=0,3\left(M\right)\\\left[OH^-\right]=\dfrac{0,06}{0,1+0,3}=0,15\left(M\right)\end{matrix}\right.\)
b, pH = 14 - (-log[OH-]) ≃ 13,176