Calculation of the average rate of reaction

AI Thread Summary
The discussion centers on the calculation of the average rate of reaction, specifically questioning the omission of stoichiometric coefficients in a given example. It clarifies that the example calculates the rate of change of concentration of a reactant rather than the overall rate of the reaction. The rate of decomposition is defined as the change in concentration over time, while the rate of disappearance or appearance refers to whether the concentration is increasing or decreasing. The conversation emphasizes that understanding these distinctions is crucial for accurate calculations. Overall, the focus is on the correct interpretation of reaction rates in chemical equations.
mcfaker
Messages
43
Reaction score
0
Hi,

Im stuck: I found this example in which they calculate the rate of reaction: the title is "calculating the average reaction rate"

Now how the hell is this average reaction rate if they didnt use stoichiometric coefficients!? (in this case it should be 2.

Thanks in advance.

7ebaef040eb99d21f1bcb4d80106b8c7.png
 
Physics news on Phys.org
mcfaker said:
Hi,
Now how the hell is this average reaction rate if they didnt use stoichiometric coefficients!? (in this case it should be 2.

Why and how are the stoichiometric coefficients to be used?
 
because the average rate always is calculated using this formula:
8cd408da00847288fcdf9d5361f64959.png
 
True that is the rate of the reaction.

The question asks, instead, for rate of decomposition of the reactant. Which is simply the rate of change of its concentration with time.
 
Sunil Simha said:
True that is the rate of the reaction.

The question asks, instead, for rate of decomposition of the reactant. Which is simply the rate of change of its concentration with time.

Thanks, So u mean that it is not the rate of the reaction that is calculated in this example?
 
mcfaker said:
Thanks, So u mean that it is not the rate of the reaction that is calculated in this example?

Yes, that is correct. They have merely found the rate of change of concentration of the reactant (which in this case is because of decomposition. Note that if they had asked the rate of formation of one of the products, it would simply again be rate of change in its concentration with respect to time)
 
And what if they would ask "the rate of disappearance"? Do u have any idea what that might mean? Thanks!
 
Disappearance or appearance would simply mean change in concentration (in the first case, the conc. is decreasing and in the second it is increasing). So you just have to find rate of change of concentration.


Note: Some textbooks use the convention that rate of disappearance is -\frac{dC}{dt}
where C is the concentration. For appearance the expression is similar but with the absence of the minus sign.
 

Similar threads

Confusion regarding a chemical kinetics problem
Replies
12
Views
3K
Biology How Do Stoichiometric Coefficients Affect Reaction Rates?
Replies
3
Views
2K
Chemistry Why is My Second-Order Reaction Rate Calculation Incorrect?
Replies
6
Views
2K
Reaction rate, rate equation and half life
Replies
4
Views
4K
Chemistry Understanding the calculation of enthalpy of the formation of benzene
Replies
3
Views
2K
Chemistry Will this reaction cause an increase or decrease in temperature?
Replies
8
Views
2K
Chemistry Does Combusting Different Amounts of Propane Change Final Temperature?
Replies
5
Views
2K
How Do You Propose a Reaction Mechanism for a Multi-Step Reaction?
Replies
10
Views
5K
Chemistry Finding the molecular formula of a hydrocarbon
Replies
1
Views
3K
Reaction rates, temperature, and thermal energy
Replies
5
Views
2K

Hot Threads

Recent Insights

Back
Top