Hydrogen is the lightest of all the elements. There is very little hydrogen in the earth’s atmosphere. Hydrogen is so light that its molecules are not held by the earth’s gravity and they diffuse into space. Overall, it is the most common element in the universe. It is probable that is forms about 90% of the total mass of the universe. It is believed that the sun composes almost of hydrogen and helium. Hydrogen occurs naturally in air as hydrogen gas. It also occurs in combined state in water, acids, petroleum, and natural gas and in almost all organic substances (proteins, carbohydrates, fats, etc.).
Preparation and Properties of Hydrogen
Hydrogen is most commonly prepared in the laboratory by the action of dilute mineral acids on certain metals. The most convenient way to prepare hydrogen in the laboratory is by addition of dilute hydrochloric acid on zinc granules. Zinc and hydrochloric acid are chosen because they produce the gas at a steady rate.
The gas may be collected by downward displacement of water. But when the gas is required free from moisture it is passed through water to remove first, any hydrogen chloride gas and then through concentrated sulphuric acid to remove moisture before being collected by upward delivery. The gas is prepared by upward delivery method because it is lighter than air and is soluble in water.
Method of preparation
Set up the apparatus as shown in figure bellow. Into a flat-bottomed
flask, put some pieces of zinc and add dilute hydrochloric acid by means
of a thistle funnel. There is effervescence, and a gas is given off
which is collected over water. Zinc chloride, which is formed, dissolves
to form Zinc chloride solution.
Preparation of hydrogen by the action of dilute hydrochloric acid on zinc metal
Test for hydrogen
A mixture of hydrogen and air explodes with a ‘pop’ sound when a flame is applied.
The Properties of Hydrogen
Physical properties Includes
- It is a colourless, tasteless and odourless gas.
- It is almost insoluble in water (2 volumes of hydrogen gas dissolve in 100 volumes of water at 8ºC).
- It is the lightest of all gases. It is about 20 times lighter than air (one litre of hydrogen at 0ºC and 760 mmHg pressure weighs 0.0899 grams)
- It condenses at -254ºC to a colourless liquid (and liquid hydrogen freezes at -259 ºC to form colourless crystals).
- It is neutral to litmus. 6. It does not support combustion.
- It combines easily with other chemical substances at high temperatures. For example, it combines with oxygen to form water. A mixture of the two gases will not react at room temperature. At higher temperatures, or when a flame is applied, the mixture will explode. When hydrogen and oxygen explode, the product is water.
Water is just the common name for the substance “hydrogen oxide”.
2. Hydrogen acts as a reducing agent, by removing oxygen from some compounds. For example, copper (II) oxide is reduced to copper by heating it in a stream of hydrogen. The hydrogen is oxidized to water.
3. It is neither acidic nor basic, so it a neutral gas.
4. A mixture of hydrogen and oxygen explodes when lit.
An experiment on reduction of copper (II) oxide (CuO) using hydrogen
Aim: To investigate the effect of hydrogen on copper (II) oxide
- Put about 5 g of copper (II) oxide in a Pyrex test tube and set
up the apparatus as shown in figure bellow. Observe and note the colour
copper (II) oxide before the start of the experiment. What colour is it?
- By means of a thistle funnel, add hydrochloric acid in a bottle containing zinc metal to generate hydrogen gas. Pass the gas through a U-tube containing a solid drying agent, calcium chloride.
- Place a dry cobalt (II) chloride paper near the mouth of a test tube as shown in figure bellow.
- Allow the hydrogen gas to pass through the apparatus for some time in order to displace all the air before lighting it.
the copper (II) oxide strongly until no further changes in colour of
the cobalt (II) chloride paper takes place. You may repeat the
experiment using lead (II) oxide and compare the results.
Reduction of copper (II) oxide with hydrogen gas
- What happens to the copper (II) oxide during the experiment?
- (a) What happens to cobalt (II) chloride paper? (b)Why is it used? (c) What other substance can serve the same purpose as cobalt (II) chloride paper?
- Enough time should be allowed for all the air in the test tube to be replaced by hydrogen before lighting the gas. What is bad
about lighting a mixture of air and hydrogen?
- What do you think can cause the size of the hydrogen flame to deteriorate?
- (a) What element did hydrogen take from the copper (II) oxide? (b) Can hydrogen take the same element from any metal oxide?
1. Black copper (II) oxide is reduced by hydrogen to brown copper metal.
2. (a) Cobalt (II) chloride paper changes its colour from blue to pink.
(b) The paper is used to indicate that water has been formed in the
reaction between copper (II) oxide and hydrogen. This water turns the
colour of the paper from blue to pink.
(c) The other substance that can be used instead of cobalt (II) chloride
paper is white anhydrous copper (II) sulphate, which turns blue when in
contact with water.
3. Enough time should be allowed for hydrogen to replace the air in the
test-tube because a mixture of hydrogen and oxygen in the tube is
explosive when lit.
4. The size of the hydrogen flame deteriorates with time as hydrogen
supply grows smaller following complete displacement of hydrogen of the
hydrochloric acid with zinc. Deterioration can also be caused by use of
excess copper (II) oxide or strong heating, meaning that most hydrogen
is used in the reduction of the oxide.
5. (a) The element taken by hydrogen from copper (II) oxide is oxygen. In
this experiment, hydrogen reduces copper (II) oxide to copper, while
hydrogen itself is oxidized to water:
(b) No. Hydrogen can only reduce those metals that are below it in the electrochemical (activity) series.
USES OF HYDROGEN
Uses of Hydrogen GasState uses of hydrogen gas
- It is used in the manufacture of ammonia by the Haber process, which is based on the direct combination of hydrogen and nitrogen.
2. It is used in the hardening of vegetable oils to make margarine.
3. It was formerly used for inflating balloons and air ships. But hydrogen is inflammable and many accidents occurred. Its use has been replaced by helium (another gas occurring in air). Nowadays, hydrogen is used by meteorologists to fill weather balloons, which carry weather instruments that record information on various elements of weather in the upper atmosphere.
4. It is used to prepare water gas, which is used as a fuel for space rockets. When hydrogen contained in water gas is burned in air, it produces extremely high heat energy that is used to power rocket engines.
5. It is used in welding by the atomic hydrogen torch.
The complete combustion between hydrogen and oxygen is a highly
exothermic reaction and can produce an oxy-hydrogen flame that has a
temperature of nearly 2000ºC, and is therefore useful in the welding and
cutting of metals.
However, the explosive nature of the combustion of hydrogen with oxygen makes the use of oxy-hydrogen flame less favourable than the oxyacetylene flame.
6. It is used in the synthesis of hydrochloric acid. In this case, hydrogen combines directly with chlorine to form hydrogen chloride gas.
The hydrogen chloride gas is then dissolved in water to form hydrochloric acid.
7. It is used in the manufacture of methanol (wood spirit). In this process hydrogen combines directly with carbon monoxide.