Chapter 5 - How Much, How Fast & How Far?
Unlocking Reaction Quotient Secrets: Reactivity 2.3.5
Table of content
Hey Chemistry Explorer!π©π¬ Let's unravel the mysteries of the Reaction Quotient (Q) in the world of chemical reactions! ππ₯
What is Reaction Quotient (Q)? π
- Definition: It’s like the detective of the chemistry world! π΅οΈ It tells us whether a reaction system is chilling at equilibrium or not by comparing the ratio of the concentration of products and reactants.
- It's calculated similarly to equilibrium constant, K, but uses the actual, non-equilibrium concentrations of the reacting species.
Q & K: The Dynamic Duo! π
Here's how you can interpret the crime-solving duo, Q and K:
- Q < K π: Too many reactants! Reaction moves forward to reach equilibrium!
- Q > K πβοΈ: Too many products! Time to reverse! The reverse reaction is favored!
- Q = K π: Perfect balance! The system is at equilibrium!
Worked Example: π§ͺ
Consider a mixture of nitrogen, hydrogen, and ammonia at 475K. N2β(g)+ 3H2β (g) β 2NH3(g) K = 0.59 and all concentrations are 0.50mol/dm3.
Q= \(\frac {[NH3]^2}{[N2][H2]^3}\)β =4 (since Q > K, the reverse reaction is favored! It's like the reaction overcooked and needs to backtrack! π³)
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Chapter 5 - How Much, How Fast & How Far?
Unlocking Reaction Quotient Secrets: Reactivity 2.3.5
Table of content
Hey Chemistry Explorer!π©π¬ Let's unravel the mysteries of the Reaction Quotient (Q) in the world of chemical reactions! ππ₯
What is Reaction Quotient (Q)? π
- Definition: It’s like the detective of the chemistry world! π΅οΈ It tells us whether a reaction system is chilling at equilibrium or not by comparing the ratio of the concentration of products and reactants.
- It's calculated similarly to equilibrium constant, K, but uses the actual, non-equilibrium concentrations of the reacting species.
Q & K: The Dynamic Duo! π
Here's how you can interpret the crime-solving duo, Q and K:
- Q < K π: Too many reactants! Reaction moves forward to reach equilibrium!
- Q > K πβοΈ: Too many products! Time to reverse! The reverse reaction is favored!
- Q = K π: Perfect balance! The system is at equilibrium!
Worked Example: π§ͺ
Consider a mixture of nitrogen, hydrogen, and ammonia at 475K. N2β(g)+ 3H2β (g) β 2NH3(g) K = 0.59 and all concentrations are 0.50mol/dm3.
Q= \(\frac {[NH3]^2}{[N2][H2]^3}\)β =4 (since Q > K, the reverse reaction is favored! It's like the reaction overcooked and needs to backtrack! π³)
Unlock the Full Content!
Dive deeper and gain exclusive access to premium files of Chemistry SL. Subscribe now and get closer to that 45 π
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