Ta có: mddHNO3(ban đầu)= 500. 1,20=600(g)

=> mHNO3= 20%. 600=120(g)

=> C%ddHNO3(sau)= (120/300).100 = 40%

mdd HNO3 = 500x1,2= 600g

=> mHNO3=\(\dfrac{m\text{dd}.C\%}{100\%}\)= \(\dfrac{600.20\%}{100\%}\)=120g

C% _{dd lúc sau}= \(\dfrac{120}{200}\).100%=60%

Câu 6:

\(m_{dd.bđ}=1,1.200=220\left(g\right)\)

\(n_{FeSO_4.7H_2O}=\dfrac{83,4}{278}=0,3\left(mol\right)\Rightarrow n_{FeSO_4}=0,3\left(mol\right)\)

=> \(C\%_{dd.bđ}=\dfrac{0,3.152}{220}.100\%=20,73\%\)

Câu 7:

\(m_{MgCl_2\left(dd.ở.60^oC\right)}=\dfrac{500.37,5}{100}=187,5\left(g\right)\)

=> \(m_{H_2O}=500-187,5=312,5\left(g\right)\)

Giả sử có a mol MgCl₂.6H₂O tách ra

\(n_{MgCl_2\left(dd.ở.10^oC\right)}=\dfrac{187,5}{95}-a=\dfrac{75}{38}-a\left(mol\right)\)

=> \(m_{MgCl_2\left(dd.ở.10^oC\right)}=95\left(\dfrac{75}{38}-a\right)=187,5-95a\left(g\right)\)

\(n_{H_2O\left(tách.ra\right)}=6a\left(mol\right)\)

\(m_{H_2O\left(dd.ở.10^oC\right)}=312,5-18.6a\)=312,5 - 108a (g)

=> \(S_{10^oC}=\dfrac{187,5-95a}{312,5-108a}.100=53\left(g\right)\)

=> \(a=\dfrac{4375}{7552}\left(mol\right)\)

=> \(m_{MgCl_2.6H_2O}=\dfrac{4375}{7552}.203=117,6\left(g\right)\)

\(Zn+H_2SO_4\rightarrow ZnSO_4+H_2\\ n_{H_2SO_4}=n_{H_2}=\dfrac{1,568}{22,4}=0,07\left(mol\right)\\ n_{H_2SO_4\left(ban.đầu\right)}=5.0,3=1,5\left(mol\right)\\ V_{ddH_2SO_4\left(lấy\right)}=\dfrac{0,07}{1,5}.3=0,14\left(l\right)=140\left(ml\right)\)

- Gọi thể tích dung dịch cần trộn lần lượt là V1, V2 ( ml , V1, V2 > 0 )

- Áp dụng phương pháp đường chéo ta có :

\(\Rightarrow\dfrac{1,06V1}{1,25V2}=\dfrac{25}{5}=5\)

- Theo bài ra ta có hệ : \(\left\{{}\begin{matrix}1,06V1+1,25V2=2.1,08=2160\\1,06V1-6,25V2=0\end{matrix}\right.\)

\(\Leftrightarrow\left\{{}\begin{matrix}V1=\dfrac{90000}{53}ml\\V2=288ml\end{matrix}\right.\)

Vậy ...

1)

\(m_{ddCuSO_4\left(bd\right)}=1,6.25=40\left(g\right)\)

\(n_{CuSO_4.5H_2O}=\dfrac{11,25}{250}=0,045\left(mol\right)\)

=> \(n_{CuSO_4}=0,045\left(mol\right)\)

\(C_M=\dfrac{0,045}{0,025}=1,8M\)

\(C\%=\dfrac{0,045.160}{40}.100\%=18\%\)

b)

\(m_{CuSO_4}=\dfrac{200.18}{100}=36\left(g\right)\)

\(n_{CuSO_4.5H_2O}=\dfrac{5,634}{250}=0,022536\left(mol\right)\)

n_{CuSO4 (tách ra)} = 0,022536 (mol)

=> \(m_{CuSO_4\left(dd.ở.t^o\right)}=36-0,022536.160=32,39424\left(g\right)\)

\(m_{H_2O\left(bd\right)}=200-36=164\left(g\right)\)

n_{H2O (tách ra)} = 0,022536.5 = 0,11268 (mol)

=> \(m_{H_2O\left(dd.ở.t^o\right)}=164-0,11268.18=161,97176\left(g\right)\)

\(S_{t^oC}=\dfrac{32,39424}{161,97176}.100=20\left(g\right)\)

Bài 1:

CuO + H2SO4 ---> CuSO4 + H2O
0,2____0,2_______0,2

mCuSO4 = 0,2.160 = 32g
mH2SO4 = 0,2.98 = 19,6g

mdd H2SO4 bđầu = mH2SO4/20% = 98g
mdd sau p/ứ = 98 + 0,2.80 = 114
mH2O = 114 - 32 = 82g

Gọi x là số mol CuSO4.5H2O tách ra

Cứ 100g H2O hòa tan được 17,4g CuSO4
=> (82-5x.18)g H2O hòa tan được (32-160x)g CuSO4
=> 100.(32-160x) = 17,4(82-5x.18) => x = 0,123mol

Vậy khối lượng CuSO5.5H2O tách ra là: 0,123.250 = 30,71g

Câu 2:

a) nNaOH=20/40=0,5(mol)

VH2O=mdd/D=250/1=250(ml)=0,25(l)

=>CM=0,5/0,25=2(M)

b) nHCl = 26,88/22,4=1,2 (mol)
=>CM = 1,2/0,5=2,4(M)

c)nNa2CO3=n Na2CO3.10H2O = 28,6/286=0,1(mol)
=>CM= 0,1/0,2=0,5(M)

Gọi CTTQ muối cacbonat đó à:ACO₃

Xét 1 mol ACO₃=>\(m_{ACO_3}\)=A+60(g)

Ta có PTHH:

ACO₃+H₂SO₄->ASO₄+H₂O+CO₂

1..............1............1....................1........(mol)

Theo PTHH:\(m_{H_2SO_4}\)=98.1=98(g)

mà \(C_{\%ddH_2SO_4}\)=16%

=>m_dd(axit)=98:16%=612,5(g)

\(m_{ASO_4}\)=1.(A+96)=A+96(g)

\(m_{CO_2}\)=44.1=44(g)

Ta có:m_ddsau=\(m_{ACO_3}\)+m_dd(axit)-\(m_{CO_2}\)=A+60+612,5-44=628,5+A

Theo gt:\(C_{\%ASO_4}\)=22,2%

=>\(\dfrac{A+96}{A+628,5}\).100%=22,2%

=>100A+9600=22,2A+13952,7

=>77,8A=4352,7=>A=56(Fe)

Vậy CTHH muối cacbonat đó là:FeCO₃