Argon (Ar) is a gaseous unreactive element that exists as single atoms. Why is this element unreactive? Fluorine and oxygen are gaseous elements that exist as the diatomic molecules F₂ and O₂. Draw dot and cross diagrams to show the covalent bonding in F₂ and in O₂. Define electronegativity. The table gives the melting points and boiling points of water and of three simple pure substances A, B, or C, or water, is most likely to: (i) have ionic bonding, (ii) be gaseous and have polar covalent bonding, (iii) have pure covalent bonding. Explain your reasoning in each case. What is the shape of a water molecule?

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Argon (Ar) is a gaseous unreactive element that exists as single atoms - Leaving Cert Chemistry - Question 5 - 2018

Question 5

Argon (Ar) is a gaseous unreactive element that exists as single atoms. Why is this element unreactive? Fluorine and oxygen are gaseous elements that exist as the d... show full transcript

Worked Solution & Example Answer:Argon (Ar) is a gaseous unreactive element that exists as single atoms - Leaving Cert Chemistry - Question 5 - 2018

Step 1

Why is this element unreactive?

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Answer

Argon (Ar) is a noble gas, found in Group 18 of the periodic table. It has a stable electron arrangement, with eight electrons in its outer shell. This full outer shell configuration makes argon unreactive, as it does not need to gain or lose electrons to achieve stability.

Step 2

Draw dot and cross diagrams to show the covalent bonding in F₂ and in O₂.

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Answer

For F₂:

  F  •
   |  
  •F

In this diagram, a single shared pair of electrons is shown between the two fluorine atoms.

For O₂:

  O  ••
   |  
  •O  ••

Here, each oxygen atom shares two pairs of electrons, depicted with two lines (one pair) connecting the atoms.

Step 3

Define electronegativity.

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Answer

Electronegativity is defined as the relative measure of the attraction or tendency of an atom to attract shared electrons in a chemical bond.

Step 4

Use the properties given in the table to identify which substance, A, B, or C, or water, is most likely to:

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Answer

(i) have ionic bonding:

Substance C is most likely to have ionic bonding due to its high melting point (730 °C) indicating strong ionic forces.

(ii) be gaseous and have polar covalent bonding:

Substance B, with a lower boiling point of -85 °C, is likely gaseous at room temperature and has polar covalent bonding (electronegativity difference = 0.96).

(iii) have pure covalent bonding:

Substance A, with a very low melting point (-210 °C) and boiling point (-85 °C), likely has pure covalent bonding as it is a simple molecular substance, exhibiting weak intermolecular forces.

Each conclusion is drawn based on the boiling and melting points along with electronegativity differences.

Step 5

What is the shape of a water molecule?

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Answer

The shape of a water molecule (H₂O) is described as 'v-shaped' or 'bent' due to the two hydrogen atoms being bonded to the oxygen atom at an angle of approximately 104.5 degrees. This angular shape arises from the repulsion between the lone pairs of electrons on the oxygen atom, which push the hydrogen atoms closer together.

Argon (Ar) is a gaseous unreactive element that exists as single atoms - Leaving Cert Chemistry - Question 5 - 2018

Worked Solution & Example Answer:Argon (Ar) is a gaseous unreactive element that exists as single atoms - Leaving Cert Chemistry - Question 5 - 2018

Why is this element unreactive?

Draw dot and cross diagrams to show the covalent bonding in F₂ and in O₂.

Define electronegativity.

Use the properties given in the table to identify which substance, A, B, or C, or water, is most likely to:

What is the shape of a water molecule?

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