LeChatelier Principle: Change Pressure

Old School Chemistry

12 Dec 201904:31

Summary

TLDRIn this educational video, the instructor explains Le Chatelier's principle concerning how a system at equilibrium responds to changes in pressure. Students are advised to memorize key concepts: increasing pressure shifts the equilibrium toward the side with fewer gas moles, while decreasing pressure favors the side with more gas moles. The instructor illustrates these principles using examples, including a reaction involving carbon monoxide, hydrogen, methane, and water, emphasizing the relationship between pressure and volume changes. The lesson is designed to enhance understanding of equilibrium dynamics in chemical reactions.

Takeaways

😀 Increasing pressure in a system at equilibrium shifts the reaction toward the side with fewer gas moles.
😀 Decreasing pressure shifts the reaction toward the side with more gas moles.
😀 The principle discussed is derived from Le Chatelier's Principle, which predicts how a system will respond to changes in pressure or volume.
😀 Memorizing the relationship between pressure and gas moles is essential for understanding equilibrium shifts.
😀 An increase in pressure corresponds to a decrease in volume, which leads to more frequent collisions among gas molecules.
😀 Decreasing the volume results in increased pressure, hence affecting the equilibrium position.
😀 In the given example, the equilibrium reaction involves carbon monoxide, hydrogen, methane, and water.
😀 For the example reaction, increasing pressure leads to the production of more products, as it shifts towards the side with fewer gas moles.
😀 When the volume is increased, leading to decreased pressure, the reaction shifts in the reverse direction to produce more reactants.
😀 The concepts of Boyle's Law are important in understanding the relationship between pressure and volume in gas systems.

Q & A

What is Le Chatelier's Principle?
-Le Chatelier's Principle states that if a system at equilibrium is subjected to a change in pressure, temperature, or concentration, the system will adjust to counteract that change and restore a new equilibrium.
How does increasing pressure affect a gas reaction at equilibrium?
-Increasing pressure causes the equilibrium to shift towards the side with fewer gas moles, as this reduces the number of collisions and helps to decrease pressure.
What happens to a gas reaction when the pressure is decreased?
-Decreasing pressure shifts the equilibrium towards the side with more gas moles, as this increases the number of collisions, helping to restore equilibrium.
Why is it suggested to memorize the relationships between pressure and gas moles?
-Memorizing these relationships simplifies understanding and predicting how a system will respond to changes in pressure, which is often easier than recalling the underlying theory.
In the reaction CO + 3H₂ ⇌ CH₄ + H₂O, how many moles of gas are present on each side?
-There are 4 moles of gas on the reactant side (1 mole of CO and 3 moles of H₂) and 2 moles of gas on the product side (1 mole of CH₄ and 1 mole of H₂O).
How does the volume change relate to pressure changes in gas systems?
-According to Boyle's Law, decreasing the volume of a gas increases the pressure, while increasing the volume decreases the pressure. This relationship is crucial for predicting the effects of volume changes on equilibrium.
What is the significance of counting only gas moles in equilibrium reactions?
-In equilibrium calculations, only gas moles are counted because they are the ones that affect pressure changes. Liquid and solid phases do not contribute to changes in pressure.
Can changes in volume be used to infer changes in pressure?
-Yes, questions about volume changes can be interpreted as changes in pressure. For example, increasing volume is equivalent to decreasing pressure.
What is a common method to present questions about equilibrium shifts in exams?
-Exams often present questions in terms of volume changes instead of direct pressure changes, requiring students to understand the relationship between volume and pressure to answer correctly.
How does increasing the volume of a container affect a gas reaction at equilibrium?
-Increasing the volume decreases the pressure, which leads the system to shift towards the side with more gas moles to restore equilibrium.