5M/2010 : Updates : Events : Alerts: Group 1 - chemical properties for 4J, 4M, 4S through 4M

CHEMICAL TRENDS

Reactivity increases when going down Group 1.
The valence electron of the atom is further away from the attraction of its positive nucleus.
The inner electrons shield the outer electron from the nucleus attraction

The inner electrons shield the outer electron from the nucleus attraction

Chemical Properties

Group 1 metals are very reactive metals.
They all show the same chemical properties.
They can react with water and non-metal such as oxygen and chlorine to form a new compound.

Electron configuration

Lithium	2.1
Sodium	2.8.1
Potassium	2.8.8.1
Rubidium	2.8.18.1
Cesium	2.8.18.18.1
Francium	2.8.18.32.18.1

Table above shows the electron arrangement of all the Group 1 metals.
All the atoms of Group 1 metal consist of 1 valence electron.
When an alkali metal atoms reacts, it loses the valence electron to form a positively charged ion. Example

$Li \to Li^+ + e^-.$

$Na \to Na^+ + e^-.$

$K \to K^+ + e^-.$

They tend to react mainly with non-metals to form ionic compounds.

Reaction with water.
Reaction with chlorine gas.
Reaction with oxygen gas.

The Reaction of Alkali Metals with cold water

Group 1 metal react vigorously with water.
The video below shows the reaction of Lithium, Sodium, Potassium, Rubidium and Caesium with water.
Click the play button to play the video or click anywhere on the player to link to the video page in youtube.

Observation

Metal	Observation
Lithium	Lithium floats on the surface of the water with with 'fizzing' sound. Colourless gas is released around the metal. Lithium metal moves slowly on the surface of water. The gas released can be ignited. If the gas is collected in a test tube, and then a lighted wooden splinter is brought close to the mouth of the test tube, a "pop" sound is heard. The solution turn blue when it is tested with universal indicator.
Sodium	Sodium also floats on the surface of the water with with 'fizzing' sound. Colourless gas is released around the metal, as what happen to lithium. The lump of sodium moves swiftly on the surface of water. The gas released can be ignited. If the gas is collected in a test tube, and then a lighted wooden splinter is brought close to the mouth of the test tube, a "pop" sound is heard. The solution turn blue when it is tested with universal indicator.
Potassium	Sodium also floats on the surface of the water. It reacts violently with water. Colourless gas is released around the metal. The gas produceed is ignited by the heat release by the reaction itself. If the gas is collected in a test tube, and then a lighted wooden splinter is brought close to the mouth of the test tube, a "pop" sound is heard. The solution turn blue when it is tested with universal indicator.

Discussion

The reaction with water is highly exothermic (release a lot heat), very fast and violent.
If a lump of lithium, sodium or potassium is placed in cold water, the metal floats, move around the surface of the water and then dissolve in the water.
This shows that lithium, sodium and potassium are less dense than water.
The substance produced is soluble in water.

The colourless flammable gas is hydrogen. It produces "pops" sound with lit splint.
Lithium and sodium do not normally cause a flame but the potassium reaction is exothermic enough to ignite the hydrogen.
Rubidium and caesium are explosive with water. Normally, your teacher does not do this experiment in the school lab.

If universal indicator is added, it changes from green (pH 7) to purple (pH 13-14), showing that the products are alkali (solution of hydroxide).

The more reactive the metal, the more vigorous the reaction.
The reactivity of the metal increases down the group.

Equation of the reaction
Lithium + Water → Lithium Hydroxide + Hydrogen Gas

$2Li + 2H_2 O \to 2LiOH + H_2$

Sodium+ Water → SodiumHydroxide + Hydrogen Gas

$2Na + 2H_2 O \to 2NaOH + H_2$

Potassium + Water → Potassium Hydroxide + Hydrogen Gas

$2K + 2H_2 O \to 2KOH + H_2$

The Reaction of Alkali Metals with Non-metals

Group 1 Alkali Metals react with non-metals to form colourless or white ionic compounds.
These compounds dissolve in water to give colourless solutions.

Reaction with oxygen

Reaction of alkali metal with oxygen gas.

The diagram above shows that when hot alkali metal is put into a gas jar filled with oxygen gas, the alkali metal will burn with bright flame.
They form white oxide powders after reaction.
These oxides dissolve in water to form strongly alkaline metal hydroxide solutions with pH value 13-14.
Lithium, sodium and potassium have similar chemical properties. All react with oxygen to produce white metal oxide.
The reactivity increases down the group from lithium, sodium to potassium.
Table below shows the observation of lithium, sodium and potassium when burn in oxygen gas.

Observation

Lithium	Lithium burns with red flame and produces white powder immediately after reaction. When the white powder is dissolved in water, it produces a solution which turned red litmus paper blue.
Sodium	Sodium burned with bright yellow flame, forming white powder immediately after reaction. When the white powder is dissolved in water, it produces a solution which turned red litmus paper blue.
Potassium	Potassium burned with very bright purplish flame, forming white powder immediately after reaction. When the white powder is dissolved in water, it produces a solution which turned red litmus paper blue.

Equation

Lithium+ Oxygen $\longrightarrow$ Lithium Oxide
$\rm 4Li + O2 \longrightarrow 2Li_2O$

Sodium + Oxygen $\longrightarrow$ Sodium Oxide
$\rm 4Na + O2 \longrightarrow 2Na_2O$

Potassium + Oxygen $\longrightarrow$ Potassium Oxide
$\rm 4K + O2 \longrightarrow 2K_2O$

Reaction with chlorine

Reaction of alkali metal with oxygen gas.

The diagram above shows that when hot alkali metal is put into a gas jar filled with chlorine gas, the alkali metal will burn with bright flame.
All alkali metals react with chlorine gas to form white metal chlorides salt.
Lithium, sodium and potassium have similar chemical properties.
The metal chlorides salt formed is soluble in water to give a neutral solution of pH 7.
The reactivity increases down the group from lithium, sodium to potassium.
Table below shows the observation of lithium, sodium and potassium burn in chlorine gas.

Observation

Lithium	Lithium burned slowly with a reddish flame . A white solid is produced.
Sodium	Sodium burned brightly with a yellowish flame. A white solid is produced. (The reaction is shown in the youtube video below.)
Potassium	Potassium burned very brightly with a purplish flame . A white solid is produced.

Equation

Lithium + Chlorine $\longrightarrow$ Lithium Chloride

$\rm 2Li + Cl_2 \longrightarrow 2LiCl$

Sodium + Chlorine $\longrightarrow$ Sodium Chloride

$\rm 2Na + Cl_2 \longrightarrow 2NaCl$

Potassium + Chlorine $\longrightarrow$ Potassium Chloride

$\rm 2K + Cl_2 \longrightarrow 2KCl$

Explaining the Reactivity Trend of the Group 1 Alkali Metals

When an alkali metal atom reacts, it loses its valence electron to form a positively charged ion.

Example
$Li \longrightarrow Li^+ + e^-$

$Na \longrightarrow Na^+ + e^-$

$K \longrightarrow K^+ + e^-$

As we go down the group from one element down to the next, the atomic radius gets bigger due to an extra filled electron shell.
The valence electron is further and further from the nucleus. Thus the attraction force between the nucleus and the valence electron become weaker and weaker.
This causes the valence electron is easier to be released to form an ion when the atom takes part in a reaction.

Solubility of the Oxide, Hydroxide and Salt of Alkali Metal

All the oxide and hydroxide of group 1 metal are soluble in water to form an alkali solution.
All the salt (salt of chloride, nitrate, sulphate, carbonate....) of group 1 metal are soluble in water. The solution formed are neutral.

Safety Precaution

Alkali metals are very reactive.
Therefore it must be kept in paraffin oil to prevent them from reacting with oxygen and water vapour in tbe air.
We must avoid to hold group 1 metals with bare hand because they may react with water on our hand.
We must wear safety goggles and gloves during handling experiment involving group 1 metal.

*Make sure you save this post in your computer. then, in your own words, write it in your notebooks...

Your Chemistry teacher,

Mrs Wong...

with da help of Taysher and Akhilash..

XD..!!!

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Authors

Monday 13 April 2009

Group 1 - chemical properties for 4J, 4M, 4S through 4M

Chemical Properties

The Reaction of Alkali Metals with cold water

Discussion

The Reaction of Alkali Metals with Non-metals

Reaction with oxygen

Observation

Equation

Reaction with chlorine

Observation

Equation

Explaining the Reactivity Trend of the Group 1 Alkali Metals

Solubility of the Oxide, Hydroxide and Salt of Alkali Metal

Safety Precaution

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