Question

How many mL of `O_2` gas at 25°C and 755 mm Hg pressure can be produced from the thermal decomposition of 0.300 grams of `KClO_3`?

Answer 1

The reaction will produce 82.9 mL of `"O"_2`.

Explanation:

Step 1. Write the balanced chemical equation.

The balanced equation is

`"2KClO"_3 → "2KCl" + "3O"_2`

Step 2. Strategy

The problem is to convert grams of `"KClO"_3` to millilitres of `"O"_2`.

We can use the flow chart below to help us.

(Adapted from www.lsua.us)

The process is:

(a) Use the molar mass to convert mass of `"KClO"_3` to moles of `"KClO"_3`.
(b) Use the molar ratio (from the balanced equation) to convert moles of `"KClO"_3` to moles of `"O"_2`.
(e) Use the Ideal Gas Law to convert moles of `"O"_2` to volume of `"O"_2`.

In equation form,

`"grams of KClO"_3 stackrelcolor(blue)("molar mass"color(white)(ml)) (→) "moles of KClO"_3 stackrelcolor(blue)("molar ratio"color(white)(ml))→ "moles of O"_2 stackrelcolor(blue)("Ideal Gas Law"color(white)(ml))(→) "volume of O"_2`

The Calculations

(a) Moles of `"KClO"_3`

`0.300 color(red)(cancel(color(black)("g KClO"_3))) × ("1 mol KClO"_3)/( 122.55 color(red)(cancel(color(black)("g KClO"_3)))) = "0.002 448 mol KClO"_3`

(b) Moles of `"O"_2`

`0.002 448color(red)(cancel(color(black)("mol KClO"_3))) × ("3 mol O"_2)/(2 color(red)(cancel(color(black)("mol KClO"_3)))) = "0.003 672 mol O"_2`

(c) Volume of `"O"_2`

The Ideal Gas Law is

`color(blue)(|bar(ul(color(white)(a/a)PV = nRTcolor(white)(a/a)|)))" "`

We can rearrange this to give

`V = (nRT)/P`

`n = "0.003 672 mol"`
`R = "0.082 06 L·atm·K"^"-1""mol"^"-1"`
`T = "(25 + 273.15) K" = "298.15 K"`

`P = 755 color(red)(cancel(color(black)("mmHg"))) × "1 atm"/(760 color(red)(cancel(color(black)("mmHg")))) = "0.9934 atm"`

∴ `V = ("0.003 672" color(red)(cancel(color(black)("mol"))) × "0.082 06"color(white)(l) "L"·color(red)(cancel(color(black)("atm·K"^"-1""mol"^"-1"))) × 273.15color(red)(cancel(color(black)( "K"))))/(0.9934 color(red)(cancel(color(black)("atm")))) = "0.0829 L" = " 82.9 mL"`

The volume of `"O"_2` produced is `"82.9 mL"`.