Leaving Cert Chemistry Stoichiometry, Formulae & Equations: Two volumes of an oxide of nitro

Two volumes of an oxide of nitrogen decomposed in the presence of a heated catalyst to form two volumes of nitrogen gas and one volume of oxygen gas, all volumes measured at the same conditions of temperature and pressure - Leaving Cert Chemistry - Question g - 2021

Question g

Two volumes of an oxide of nitrogen decomposed in the presence of a heated catalyst to form two volumes of nitrogen gas and one volume of oxygen gas, all volumes mea... show full transcript

Worked Solution & Example Answer:Two volumes of an oxide of nitrogen decomposed in the presence of a heated catalyst to form two volumes of nitrogen gas and one volume of oxygen gas, all volumes measured at the same conditions of temperature and pressure - Leaving Cert Chemistry - Question g - 2021

Step 1

Deduce the formula of the oxide of nitrogen that decomposed

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Answer

To determine the formula of the nitrogen oxide, we can start by noting the reaction as follows:

$2 \text{NO}_x \xrightarrow[]{\text{catalyst}} 2 \text{N}_2 + \text{O}_2$

From the information given, we deduce that 2 volumes of the nitrogen oxide decompose into 2 volumes of nitrogen (N₂) and 1 volume of oxygen (O₂). This indicates that for every 2 moles of nitrogen oxide, we get 2 moles of nitrogen gas and 1 mole of oxygen gas.

To find the nitrogen oxide formula, let’s establish a stoichiometric relationship:

The nitrogen oxide decomposes to give twice as much nitrogen gas, leading us to understand that the oxide likely has a ratio of nitrogen to oxygen.

Thus, employing the law of conservation of mass and the known volume ratios, we can establish the formula:

If we assume the formula of the nitrogen oxide is NₓOᵧ, and from the reaction we see that there must be 1 oxygen for every 2 nitrogen:

We conclude that the simplest whole number ratio is:

$x : y = 2 : 1$

Thus, the probable formula is N₂O.

Step 2

Find the value of x in KBrO₃

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Answer

To find the value of x in KBrO₃ where KBrO₃ contains 47.9% bromine by mass, we can set up the following equations:

Given: KBrO₃ has a molar mass comprised of:

Potassium (K): 39 g/mol

Bromine (Br): 80 g/mol

Oxygen (O): 16 g/mol

Let the molar mass of KBrO₃ be: $M = 39 + 80 + 16x$

From the mass percent equation, we have: $rac{80}{M} = 0.479$

Substituting for M gives us: $80 = 0.479(39 + 80 + 16x)$

Solving this will allow us to find the value of x:

Calculate the total mass from the equation above.
Isolate x and solve:

Following through with the rearrangement and solving for x, we get:

$\Rightarrow x = 3$

Thus, the value of x in KBrO₃ is 3.

Two volumes of an oxide of nitrogen decomposed in the presence of a heated catalyst to form two volumes of nitrogen gas and one volume of oxygen gas, all volumes measured at the same conditions of temperature and pressure - Leaving Cert Chemistry - Question g - 2021

Worked Solution & Example Answer:Two volumes of an oxide of nitrogen decomposed in the presence of a heated catalyst to form two volumes of nitrogen gas and one volume of oxygen gas, all volumes measured at the same conditions of temperature and pressure - Leaving Cert Chemistry - Question g - 2021

Deduce the formula of the oxide of nitrogen that decomposed

Find the value of x in KBrO₃

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