The Physical and Chemical Properties of Group 2 Flashcards | A-Level Chemistry AQA

State the trend in atomic radius as we move down group 2.

Atomic radius increases as we move down group 2.

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State and explain the trend in first ionisation energy as we move down group 2.

First ionisation energy decreases as we move down group 2 because:

Atomic radius increases due to the addition of extra energy levels, increasing the distance between the outermost electron and the nucleus.
The increased number of inner electrons provides greater shielding, reducing the effective nuclear charge experienced by the outermost electron.
The increased distance and shielding effect weaken the electrostatic attraction between the nucleus and the outermost electron, making it easier to remove.

The graph below shows in first ionisation energy as we move down group 2.

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State and explain the trend in reactivity as we move down group 2.

Reactivity increases as we move down group 2.

This is because the outer electrons are further away from the nucleus and are shielded by more inner electrons. This makes it easier for the elements to lose their outer electrons and form positive ions.

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What is the equation to describe the reaction of a group 2 metal (M) with water?

M + 2H₂O ➔ M(OH)₂ + H₂

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Why are the reactions of group 2 metals with water classed as redox reactions?

Because each metal atom is oxidised, losing 2 electrons to form a 2+ ion, while water gains these 2 electrons and is reduced.

The group 2 metals acts as a reducing agent in this reaction.

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State and explain the general trend in melting point of group 2 elements as we move down the group.

The melting point of group 2 elements generally decreases as we move down the group because:

Atomic radius increases down the group due to additional energy levels, leading to weaker electrostatic attraction between the metal cations and the delocalised electrons in the metallic lattice.
The increased distance between the metal cations and the delocalised electrons results in weaker metallic bonding.
Weaker metallic bonding requires less energy to overcome, resulting in lower melting points.

The graph below shows the trend in melting point as we move down group 2.

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What is the equation to describe the reaction of a group 2 metal (M) with oxygen?

2M + O₂ ➔ 2MO

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Why does atomic radius increase down a group?

Atomic radius increases down a group because:

Additional energy levels (shells) are added as we move down a group, increasing the distance between the outer electrons and the nucleus.
The increased number of inner electrons provides greater shielding, reducing the effective nuclear charge experienced by the outer electrons.
With more shielding and a larger distance from the nucleus, the outermost electrons are held less tightly, resulting in a larger atomic radius.

The graph below shows the trend in atomic radius as we move down group 2.

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