\(n_{Mg}=\dfrac{2,4}{24}=0,1\left(mol\right)\\ a,2Mg+O_2\rightarrow\left(t^o\right)2MgO\\ n_{O_2}=\dfrac{0,1}{2}=0,05\left(mol\right)\\ V_{O_2\left(đktc\right)}=0,05.22,4=1,12\left(l\right)\\ b,2KClO_3\rightarrow\left(t^o\right)2KCl+3O_2\\ n_{KClO_3}=\dfrac{0,05.2}{3}=\dfrac{1}{30}\left(mol\right)\\ \Rightarrow m_{KClO_3}=\dfrac{122,5}{30}=\dfrac{49}{12}\left(g\right)\)

mMg = 3.6/24 = 0.15 (mol) 

2Mg + O2 -to-> 2MgO 

0.15__0.075____0.15 

mMgO= 0.15*40 = 6 (g) 

VO2  = 0.075*22.4 = 1.68 (l) 

2KClO3 -to-> 2KCl + 3O2 

0.05_______________0.075 

mKClO3 = 0.05*122.5 = 6.125 (g) 

PTHH: \(2Mg+O_2\underrightarrow{t^o}2MgO\)

a+b) Ta có: \(n_{Mg}=\dfrac{3,6}{24}=0,15\left(mol\right)\)

\(\Rightarrow\left\{{}\begin{matrix}n_{O_2}=0,075\left(mol\right)\\n_{MgO}=0,15\left(mol\right)\end{matrix}\right.\) \(\Rightarrow\left\{{}\begin{matrix}V_{O_2}=0,075\cdot22,4=1,68\left(l\right)\\m_{MgO}=0,15\cdot40=6\left(g\right)\end{matrix}\right.\)

c) PTHH: \(2KClO_3\xrightarrow[MnO_2]{t^o}2KCl+3O_2\uparrow\)

Theo PTHH: \(n_{KClO_3}=0,05\left(mol\right)\)

\(\Rightarrow m_{KClO_3}=0,05\cdot122,5=6,125\left(g\right)\)

PTHH : 2Cu + O2 ---> 2CuO (1)

2KMnO4 --->   K2MnO4 + MnO2 + O2 (2)

Từ gt => nCu =16:64 = 0,25 (mol)

Từ (1) và gt => nCu = nCuO =    2 nO2

=> nCuO = 0,25 mol

nO2 = 0,125 mol

=> mCuO = 0,25 x 80 = 20 (g)

VO2 = 0,125 x 22,4 = 2,8 (l)

Từ (2) => nKMnO4 = 2 nO2

=> nKMnO4 = 0,25

=> mKMnO4 = 0,25 x 158 = 39,5(g)

2Mg+O₂-to>2MgO

0,15---0,075 mol

2KClO₃-to->2KCl+3O₂

0,05-----------------------0,075

n _Mg=\(\dfrac{3,6}{24}\)=0,15 mol

=>V_O2=0,075.22,4=1,68l

=>m _KClO3=0,05.122,5=6,125g

Sao lại cho Mg vào mà ''khối lượng kali clorat'' là sao em

1. a. \(PTHH:2Mg+O_2\overset{t^o}{--->}2MgO\left(1\right)\)

b. Ta có: \(n_{Mg}=\dfrac{24}{24}=1\left(mol\right)\)

Theo PT₍₁₎: \(n_{O_2}=\dfrac{1}{2}.n_{Mg}=\dfrac{1}{2}.0,1=0,5\left(mol\right)\)

\(\Rightarrow V_{O_2}=0,5.22,4=11,2\left(lít\right)\)

c. \(PTHH:2KClO_3\xrightarrow[t^o]{MnO_2}2KCl+3O_2\left(2\right)\)

Theo PT₍₂₎: \(n_{KClO_3}=\dfrac{2}{3}.n_{O_2}=\dfrac{2}{3}.0,5=\dfrac{1}{3}\left(mol\right)\)

\(\Rightarrow m_{KClO_3}=\dfrac{1}{3}.122,5=40,83\left(g\right)\)

2. \(PTHH:3Fe+2O_2\overset{t^o}{--->}Fe_3O_4\)

Ta có: \(n_{Fe_3O_4}=\dfrac{2,32}{232}=0,01\left(mol\right)\)

a. Theo PT: \(n_{Fe}=3.n_{Fe_3O_4}=0,01.3=0,03\left(mol\right)\)

\(\Rightarrow m_{Fe}=0,03.56=1,68\left(g\right)\)

b. Theo PT: \(n_{O_2}=2.n_{Fe_3O_4}=2.0,01=0,02\left(mol\right)\)

\(\Rightarrow V_{O_2}=0,02.22,4=0,448\left(lít\right)\)

\(a/n_{Fe}=\dfrac{2,52}{56}=0,045mol\\ 3Fe+2O_2\xrightarrow[]{t^0}Fe_3O_4\\ n_{O_2}=\dfrac{0,045.2}{3}=0,03mol\\ V_{O_2}=0,03.22,4=0,672l\\ b/2KClO_3\xrightarrow[]{t^0}2KCl+3O_2\\ n_{KClO_3}=\dfrac{0,03.2}{3}=0,02mol\\ m_{KClO_3}=0,02.122,5=2,45g\)

Còn câu c nữa ạ 

Tính khối lượng O2, cần để đốt cháy hoàn toàn lượng khí vừa sinh ra ở trên

a, \(2Cu+O_2\underrightarrow{t^o}2CuO\)

b, \(n_{Cu}=\dfrac{16}{64}=0,25\left(mol\right)\)

Theo PT: \(n_{O_2}=\dfrac{1}{2}n_{Cu}=0,125\left(mol\right)\Rightarrow V_{O_2}=0,125.22,4=2,8\left(l\right)\)

c, \(2KMnO_4\underrightarrow{t^o}K_2MnO_4+MnO_2+O_2\)

Theo PT: \(n_{KMnO_4}=2n_{O_2}=0,25\left(mol\right)\Rightarrow m_{KMnO_4}=0,25.158=39,5\left(g\right)\)

a) \(n_{O_2}=\dfrac{4,48}{22,4}=0,2\left(mol\right)\)

PTHH: 3Fe + 2O₂ --t^o--> Fe₃O₄

           0,3<---0,2-------->0,1

=> m = 0,3.56 = 16,8 (g)

b) m_Fe3O4 = 0,1.232 = 23,2 (g)

c) V_kk = 4,48 : 20% = 22,4 (l)

nO2 = 4,48/22,4 = 0,2 (mol)

PTHH: 3Fe + 2O2 -> (t°) Fe3O4

Mol: 0,3 <--- 0,2 ---> 0,1

mFe = 0,3 . 56 = 16,8 (g)

mFe3O4 = 0,1 . 232 = 23,2 (g)

Vkk = 4,48 . 5 = 22,4 (l)

4Al+3O2-to>2Al2O3

0,2----0,15-------0,1

nAl=\(\dfrac{5,4}{27}\)=0,2 mol

m Al2O3=0,1.102=10,2g

=>VO2=0,15.22,4=3,36l

2KClO3-to>2KCl+3O2

0,1----------------------0,15

=>m KClO3=0,1.122,5=12,25g