Chemical Equilibrium and Concentration

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The equilibrium constant for the reaction between hydrogen and fluorine is 1.15x10^2, and the equilibrium concentration of HF needs to be calculated after adding 3.00 mol of each component to a 1.500 L flask. Initial concentrations of H2 and F2 are both 2 M, but the equilibrium concentrations will differ due to the reaction. The use of an ICE table is suggested for determining changes in concentration, particularly when initial, change, and equilibrium states are clearly defined. However, some users argue that ICE tables are unnecessary for buffer calculations, as the Henderson-Hasselbalch equation is often more efficient. Understanding when to apply an ICE table is crucial for accurately solving equilibrium problems.
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The reaction between hydrogen and fluorine has an equilibrium constant of 1.15x102 at a certain temperature. Given the reaction equation H2(g) + F2(g) -> 2HF(g), calculate the equilibrium concentration of HF after 3.00 mol of each component is added to a 1.500 L flask.

I attempted solving it by calculating the concentration of H2 and F2 which were each 2 (3/1.5). Afterwards, I formed the equilibrium expression and multiplied 2 squared (for H2 and F2) with 1.15x102. Then I found the square root of the answer since HF would be raised to the power of 2 which was about 21. However, the answer is 1.5M and I don't know how they got that.
 
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Hydrogen and fluorine react, so their equilibrium concentrations are different from the initial ones. ICE table?
 
Borek said:
Hydrogen and fluorine react, so their equilibrium concentrations are different from the initial ones. ICE table?

Thanks. How do you know when to use an ICE table in a question?
 
Whenever it is obvious that I, C and E are nicely defined.

Just don't use ICE table for buffer questions.
 
Borek said:
Whenever it is obvious that I, C and E are nicely defined.

Just don't use ICE table for buffer questions.

I tried an ICE table for a buffer solution once but it gives me the same answer as the Henderson-Hasselbalch equation anyways (which is quicker to plug in all the numbers.)
 
I never stated it is impossible to do buffer questions with ICE table, it just IMHO doesn't make sense.
 

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