Balanced chemical equation is as;
<span> 2 Kl + Cl</span>₂ → <span>2 KCl + I</span>₂
1) Moles of I₂<span> produced;
22.4 L volume is occupied by</span> = 1 mole of I₂ at STP
So,
8.5 L of I₂ will be occupied by = X mole of I₂ at STP
Solving for X,
X = (8.5 L × 1 mol) ÷ 22.4 L
X = 0.379 Moles of I₂
2) Moles of Cl₂ used;
22.4 L I₂ utilized = 1 mole of Cl₂ gas
So,
8.5 L of I₂ will utilize = X mole of Cl₂ gas
Solving for X,
X = (8.5 L × 1 mol) ÷ 22.4 L
X = 0.379 Moles of Cl₂
3) <span>Grams of Cl</span>₂<span> used;
As,
Moles = Mass / M.mass
Or,
Mass = Moles </span>× M.mass
Mass = 0.379 mol × 70.90 g.mol⁻¹
Mass = 26.87 grams of Cl₂
The mass of NaCl formed is 8.307 grams
<u><em> calculation</em></u>
step 1: write the equation for reaction
Na₂CO₃ + 2HCl → 2 NaCl +CO₂ +H₂O
Step 2: find the moles of Na₂CO₃
moles = mass/molar mass
The molar mass of Na₂CO₃ is = (23 x2) + 12 + ( 16 x3) = 106 g/mol
moles = 7.5 g/106 g/mol =0.071 moles
Step 3: use the mole ratio to determine the mole of NaCl
Na₂CO₃:NaCl is 1:2 therefore the moles of NaCl =0.07 x2 =0.142 moles
Step 4: calculate mass of NaCl
mass= moles x molar mass
the molar mass of NaCl= 23 +35.5 =58.5 g/mol
mass = 0.142 moles x 58.5 g/mol =8.307 grams
Answer
is: <span>the
percent ionizationof formic acid is 1,82%.
Chemical reaction: HCOOH(aq) </span>⇄ H⁺(aq)
+ HCOO⁻(aq).<span>
pKa(</span>HCOOH) = 3,77.
Ka(HCOOH) = 1,7·10⁻⁴.
c(HCOOH) = 0,5 M.
<span>
[H</span>⁺]
= [HCOO⁻] = x; equilibrium
concentration.<span>
[HA] = 0,1 M - x.
Ka = [H</span>⁺] · [HCOO⁻] / [HCOOH].<span>
0,00017 = x² / 0,5 M - x.
Solve quadratic equation: x = 0,0091 M.
α = 0,0091 M ÷ 0,5 M · 100% = 1,82%.</span>
Because they frequently have a long half-lives, therefore his stay in the middle is long.
Number 4
If you notice any mistake in my english, please let me know, because i am not native.
