Respuesta :
Answer
820866.45 grams C₃H₃N can be obta
Explanation
Given balanced equation:
[tex]4C_3H_6\mleft(g\mright)+6NO\mleft(g\mright)\to4C_3H_3N\mleft(g\mright)+6H_2O\mleft(g\mright)+N_2\mleft(g\mright)[/tex]Given reacting mass of C₃H₆ = 651 kg
What to find:
The mass of C₃H₃N obtained from 651 kg of C₃H₆
Step-by-step soltion:
From the Periodic Table:
Molar mass of C₃H₆ = 42.08 g/mol
Molar mass of C₃H₃N = 53.06 g/mol
You need to convert the given reacting mass of C₃H₆ from kilograms, (kg) to grams, (g).
Conversion factor:
1 kg = 1000 g
So 651 kg = 651 x 1000 = 651,000 grams
From the balanced equation above;
(4 mol x 42.08 g/mol) = 168.32 g C₃H₆ produced (4 mol x 53.06 g/mol) = 212.24 g C₃H₃N
Therefore 651,000 g C₃H₆ will produce
[tex]\frac{651000\text{ g }C_3H_6\times212.24\text{ }C_3H_3N}{168.32\text{ g }C_3H_6}=820866.45\text{ grams }C_3H_3N[/tex]