The diagram shows a model of a water molecule. hydrogen atom. oxygen atom. hydrogen atom. covalent bond (a) Explain, in terms of electrons, how a covalent bond is formed between an oxygen atom and a hydrogen atom. (b) Calculate the relative formula mass of water, H₂O. (Relative atomic masses: H = 1.0, O = 16) (c) Hydrogen burns in oxygen to form water. (i) Write the balanced equation for this reaction. (ii) In an experiment the mass of water obtained was 2.0 g. The theoretical yield for this experiment was calculated to be 4.0 g. Calculate the percentage yield. (iii) Suggest one reason why less than 4.0 g of water was obtained in this experiment.

GCSE Edexcel Chemistry Covalent bonding: The diagram shows a model of a w

The diagram shows a model of a water molecule - Edexcel - GCSE Chemistry - Question 4 - 2012 - Paper 1

Question 4

The diagram shows a model of a water molecule. hydrogen atom. oxygen atom. hydrogen atom. covalent bond (a) Explain, in terms of electrons, how a covalent bond ... show full transcript

Worked Solution & Example Answer:The diagram shows a model of a water molecule - Edexcel - GCSE Chemistry - Question 4 - 2012 - Paper 1

Step 1

Explain, in terms of electrons, how a covalent bond is formed between an oxygen atom and a hydrogen atom.

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Answer

A covalent bond is formed when an oxygen atom shares its electrons with hydrogen atoms. Oxygen has six electrons in its outer shell and requires two more to achieve a stable octet. Each hydrogen atom has one electron and needs another to fill its outer shell. When an oxygen atom shares its electrons with two hydrogen atoms, they form covalent bonds, resulting in a stable H₂O molecule.

Step 2

Calculate the relative formula mass of water, H₂O.

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Answer

To calculate the relative formula mass of water (H₂O), we add the relative atomic masses of its constituent elements:

Hydrogen (H): 2 atoms × 1.0 = 2.0
Oxygen (O): 1 atom × 16 = 16.0

Total relative formula mass = 2.0 + 16.0 = 18.0

Step 3

Write the balanced equation for this reaction.

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Answer

The balanced equation for the combustion of hydrogen in oxygen to form water is:

ightarrow 2H_2O$$

Step 4

Calculate the percentage yield.

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Answer

Percentage yield is calculated using the formula:

$ext{Percentage Yield} = rac{ ext{Actual Yield}}{ ext{Theoretical Yield}} imes 100$

Where the actual yield is 2.0 g and the theoretical yield is 4.0 g,

$ext{Percentage Yield} = rac{2.0 ext{ g}}{4.0 ext{ g}} imes 100 = 50 ext{\%}$

Step 5

Suggest one reason why less than 4.0 g of water was obtained in this experiment.

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Answer

One reason for obtaining less than 4.0 g of water could be experimental error, such as loss of water during handling, evaporation, or incomplete reaction due to insufficient hydrogen or oxygen.

The diagram shows a model of a water molecule - Edexcel - GCSE Chemistry - Question 4 - 2012 - Paper 1

Worked Solution & Example Answer:The diagram shows a model of a water molecule - Edexcel - GCSE Chemistry - Question 4 - 2012 - Paper 1

Explain, in terms of electrons, how a covalent bond is formed between an oxygen atom and a hydrogen atom.

Calculate the relative formula mass of water, H₂O.

Write the balanced equation for this reaction.

Calculate the percentage yield.

Suggest one reason why less than 4.0 g of water was obtained in this experiment.

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