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Chapter 17: Q17.7P (page 775)

In a study of the thermal decomposition of Lithium peroxide,

2Li2O2(s)⇌2Li2O(s)+O2(g)

A chemist finds that, as long as some Lithium peroxide is present at the end of the experiment, the amount of oxygen obtained in a given container at a given temperature is the same. Explain.

Short Answer

Expert verified

Since the system is in equilibrium

Step by step solution

01

Equilibrium

The equilibrium of a reaction at a given temperature is the state in which the rate of formation of the product is equal to the rate of decomposition of the reactant. This is dynamic in nature.

02

Explanation

The reaction at equilibrium for the decomposition of lithium peroxide is as shown below:

2Li2O2(s)⇌2Li2O(s)+O2(g)

The given reaction is in equilibrium state. The equilibrium state of a chemical reaction is the state in which the reactants and the products are in equilibrium to each other or it can be defined as the rate of formation of product is equal to the rate of backward reaction.

Hence when there is any lithium peroxide present, it will be decomposed to lithium oxide and oxygen. This results in the formation of oxygen when there is lithium peroxide even at the end of the reaction.

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Most popular questions from this chapter

Predict the effect of increasing the temperature on the amounts of products in the following reactions:

(a)CO(g)+2H2(g)⇌CH3°¿±á(²µ) Δ±árxn°=-90.7kJ

(b)C(s)+H2O(g)⇌CO(g)+H2(²µ) Δ±áran°=131kJ

(c) 2NO2(g)⇌2NO(g)+O2(g)(endothermic)

(d) 2C(s)+O2(g)⇌2CO(g)(exothermic)

In the 1980s, CFC-11 was one of the most heavily produced chlorofluorocarbons. The last step in its formation is

CCI4(g)+HF(g)â–¡CFCI3(g)+HCI(g)

If you start the reaction with equal concentrations of CCI4and HF, you obtain

equal concentrations of CFCI3and HCl at equilibrium. Are the final

concentrations of CFCI3and HCl equal if you start with unequal

concentrations ofCCI4 and HF? Explain.

The molecular scenes below depict the reaction Y⇌2Z at four different times, out of sequence, as it reaches equilibrium. Each sphere (Y is red and Zis green) represents0.025mol and the volume is0.40L .

(a) Which scene represents equilibrium?

(b) List the scenes in the correct sequence.

(c) CalculateKc .

Hydrogenation of carbon-carbon π bonds is important in the petroleum and food industries. The conversion of acetylene to ethylene is a simple example of the process:

C2H2(g)+H2(g)⇌C2H4(g)

The calculatedKc at 2000K is2.9×108 . But the process is run at lower temperatures with the aid of a catalyst to prevent decomposition. UseΔ±áf° values to calculate theKC at 300K.

Gaseous decomposes according to the reaction

PCI5(g)â–¡PCI3(g)+CI2(g)

In one experiment, 0.15 mol of PCI5(g)was introduced into a 2.0-L container.

Construct the reaction table for this process.
See all solutions

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