Balancing Chemical Reactions: 0.6 O2, 0.8 CO, 0.5 CO2

In summary, when 0.6 mole of O2, 0.8 mole of CO, and 0.5 mole of CO2 are added to a 2-L container and heated, an additional 0.15 mole of CO2 is formed, bringing the total amount of CO2 at equilibrium to 0.65 mole. This is due to the shift in the reaction towards the product side to relieve the stress of increased pressure.
  • #1
Chocolaty
48
0
Help me understand please

0.6 mole of O2, 0.8 mole of CO and 0.5 mole of CO2 are added to a 2-L container. The system is heated and 0.15 mole of CO2 is formed.

Does that mean that on top of the initial 0.5 mole of CO2 an additional 0.15 mole of CO2 is formed or does that mean that in total (at equilibrium) 0.15 mole of CO2 has been formed?

Anyone? thanks
 
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  • #2
I would imagine that it means that an additional .15 mol of [itex]CO_2[/tex] is formed because the equillibrium of that reaction favors formation of [itex]CO_2[/tex] heavily.
 
  • #3
Chocolaty said:
0.6 mole of O2, 0.8 mole of CO and 0.5 mole of CO2 are added to a 2-L container. The system is heated and 0.15 mole of CO2 is formed.

Does that mean that on top of the initial 0.5 mole of CO2 an additional 0.15 mole of CO2 is formed or does that mean that in total (at equilibrium) 0.15 mole of CO2 has been formed?

Anyone? thanks

This is the reaction O2 + 2CO --> CO2

When you heat the container, the reaction shifts to the product side.
You can think of heat energy as something that can be written as a reactant or product. So if the equation shifts to the rights when heat is added, the heat must be on the left. Le Chatlier's Principle says that when a stress is placed on a system the system will shift to relieve that stress. So by shifting to the right, it is relieving the stress whcih is on the left.

So we have: HEAT + O2 + 2CO --> CO2

We can learn from this that the reaction is probably endothermic (heat added), but we cannot be sure because by heating the container we introduce another stress, increased pressure.

When Pressure is increased in a closed container at equilibrium the reaction will shift in whichever direction will relieve that pressure. Since fewer particles will result in less pressure, the reaction will shift toward the side which has the fewest moles of gas (in this case the products have 1 mole while the reactants have 3 moles).

There are always multiple ways to approach problems in the sciences and math and these are two common ways one might approach this one. Hope this helps.
 
  • #4
Chocolaty said:
0.6 mole of O2, 0.8 mole of CO and 0.5 mole of CO2 are added to a 2-L container. The system is heated and 0.15 mole of CO2 is formed.

Does that mean that on top of the initial 0.5 mole of CO2 an additional 0.15 mole of CO2 is formed or does that mean that in total (at equilibrium) 0.15 mole of CO2 has been formed?

Anyone? thanks

It means an additional 0.15 moles of CO2 were formed. Practically an english question. "is formed" should give it away i suppose.
 

FAQ: Balancing Chemical Reactions: 0.6 O2, 0.8 CO, 0.5 CO2

What is the purpose of balancing chemical reactions?

Balancing chemical reactions is necessary in order to satisfy the law of conservation of mass. This law states that matter cannot be created or destroyed, only transformed. Balancing a chemical reaction ensures that the same number of atoms of each element are present on both the reactant and product sides.

How do you balance a chemical reaction?

To balance a chemical reaction, you must adjust the coefficients (numbers in front of the chemical formulas) so that the number of atoms of each element is equal on both sides. This can be done by using the trial and error method or algebraic methods such as the matrix method.

What is the importance of balancing chemical equations?

Balancing chemical equations is important because it allows us to accurately represent the reactants and products involved in a chemical reaction. It also helps us understand the stoichiometry (quantitative relationships) between reactants and products.

What are some common mistakes when balancing chemical equations?

One common mistake is forgetting to balance the atoms of each element on both sides of the equation. Another mistake is changing the subscripts in a chemical formula, which changes the identity of the substance. It is also important to make sure that the coefficients are in the lowest whole number ratio.

How do you know when a chemical equation is balanced?

A chemical equation is balanced when the number of atoms of each element is equal on both sides of the equation. Additionally, the coefficients should be in the lowest whole number ratio and there should be no fractional coefficients.

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