Respuesta :
Answer:
0.264 moles of carbon dioxide are produced.
Explanation:
Limiting reagent : The reactant that is consumed in a reaction is called the limiting reagent.
Molar mass = mass of substance in grams present in 1 mole of the compound.
before solving this question,
It is needed to know , the molar mass of cr2(co3)3 and CO2
Molar mass of cr2(co3)3 = 2(mass of Cr) + 3(massof C) + 9(mass of O)
= 2(52) + 3(12) + 9(16)
= 104 + 36 + 144
= 284 g
This means 1 mole of cr2(co3)3 = 284 g............(1)
Molar mass of CO2 = mass of C + 2(mass of O)
= 12 + 2(16)
= 12 + 32
= 44 g
This means 1 mole of CO2 contain 44 g of it.
So, 3 mole of CO2 contain = 44x3 g
3 mole of CO2 contain = 132 g.............(2)
The balance equation for the reaction is :
[tex]Cr_{2}(CO_{3})_{3}+6HNO_{3}\rightarrow [/tex]
[tex]2Cr(NO_{3})_{3} +8H_{2}O+3CO_{2}[/tex]
HNO3 = excess reagent , it can't be used in for predicting the moles of CO2
[tex]Cr_{2}(CO_{3})_{3}[/tex]= Limiting reagent = It will tell the amount of CO2 that will be produced
In the balanced equation ,
1 mole of cr2(co3)3 is giving = 3 mole of CO2
Use equation (1) and (2)
284 g of cr2(co3)3 is giving = 132 g of CO2
1 gram of cr2(co3)3 is giving =
[tex]\frac{132}{284}[/tex] g of CO2
25 g of cr2(co3)3 will give =
[tex]\frac{132}{284}\times 25[/tex] g of CO2
= 11.62 gram CO2
now , moles of CO2 can be calculated using ,
[tex]moles=\frac{given\ mass}{Molar\ mass\ of\ CO2}[/tex]
[tex]moles =\frac{11.6}{44}[/tex] (molar mass of co2 = 44 g)
moles of CO2 = 0.264
