The following experiments show the reaction of non-metals with Oxygen and air.
Burning Carbon
Procedure
(a) Using a pair of tongs hold a dry piece of charcoal on a Bunsen flame. Observe. Place the products in a beaker containing about 2cm3of water.
Test the solution/mixture using litmus papers
(b) Using a pair of tongs hold another piece of dry charcoal on a Bunsen flame. Quickly lower it into a gas jar containing Oxygen gas .
Observe.
Place about 2cm3 of water. Swirl. Test the solution/mixture using litmus papers
Observations
- Carbon chars then burns with a blue flame
- Colourless and odourless gas produced
- Solution formed turn blue litmus paper faint red.
- Red litmus paper remains red.
Explanation
- Carbon burns in air and faster in Oxygen with a blue non-sooty/non-smoky flame forming Carbon (IV) oxide gas.
- Carbon burns in limited supply of air with a blue non-sooty/non-smoky flame forming Carbon (IV) oxide gas.
- Carbon (IV) oxide gas dissolve in water to form weak acidic solution of Carbonic (IV)acid.
Chemical Equation
Carbon + Oxygen -> Carbon(IV)oxide
(excess air/oxygen)
C(s) + O2(g) -> CO2(g) (in excess air)
Carbon + Oxygen -> Carbon(II)oxide
(limited air/oxygen)
2C(s) + O2(g) -> 2CO(g) (in limited air)
Carbon(IV)oxide + Water -> Carbonic(IV)acid CO2(g) + H2O (l) -> H2CO3 (aq) (very weak acid)
Burning Sulphur
Procedure
(a)Using a deflagrating spoon place sulphur powder on a Bunsen flame.
Observe.
Place the products in a beaker containing about 3cm2 of water. Test the solution/mixture using litmus papers
(b)Using a deflagrating spoon place sulphur powder on a Bunsen flame. Slowly lower it into a gas jar containing Oxygen gas.Observe.
Place about 5cm3 of water. Swirl. Test the solution/mixture using litmus papers.
Observations
- Sulphur burns with a blue flame
- Gas produced that has pungent choking smell
- Solution formed turn blue litmus paper faint red.
- Red litmus paper remains red.
Explanation
Sulphur burns in air and faster in Oxygen with a blue non-sooty/non-smoky flame forming Sulphur (IV) oxide gas.
Sulphur (IV) oxide gas dissolve in water to form weak acidic solution of Sulphuric (IV)acid.
Chemical Equation
Sulphur+ Oxygen ->Sulphur(IV)oxide
S(s) + O2(g) -> SO2(g) (in excess air) Sulphur(IV)oxide+ Water ->Sulphuric(IV)acid SO2(g) + H2O (l) -> H2SO3 (aq) (very weak acid)
Burning Phosphorus
Procedure
(a)Remove a small piece of phosphorus from water and using a deflagrating spoon (with a lid cover) place it on a Bunsen flame.
Observe.
Carefully put the burning phosphorus to cover gas jar containing about 3cm3 of water.
Test the solution/mixture using litmus papers
(b)Remove another small piece of phosphorus from water and using a deflagrating spoon (with a lid cover) places it on a Bunsen flame.
Slowly lower it into a gas jar containing Oxygen gas with about 5 cm3 of water.
Observe.
Swirl. Test the solution/mixture using litmus papers.
Observations
- Phosphorus catches fire before heating on Bunsen flame
- Dense white fumes of a gas produced that has pungent choking poisonous smell -Solution formed turn blue litmus paper faint red.
- Red litmus paper remains red.
Explanation
Phosphorus is stored in water. On exposure to air it instantaneously fumes then catch fire to burn in air and faster in Oxygen with a yellow flame producing dense white acidic fumes of Phosphorus(V) oxide gas.
Phosphoric(V) oxide gas dissolve in water to form weak acidic solution of Phosphoric (V)acid.
Chemical Equation
Phosphorus+ Oxygen ->Phosphorous(V)oxide
4P(s) + 5O2(g) -> 2P2(O5((s) Phosphorous(V)oxide + Water ->Phosphoric(V)acid P2O5((s)+3H2(O (l) -> 2H3(PO4( (aq) (very weak acid)
(e) Reactivity series/competition for combined Oxygen.
The reactivity series is a list of elements/metals according to their affinity for oxygen. Some metals have higher affinity for Oxygen than others. A metal/element with higher affinity for oxygen is placed higher/on top of the one less affinity.