1 (a) The concentration of a solution can be calculated using the equation concentration of solution = \frac{mass \ of \ solid}{volume \ of \ solution} A student dissolved 9.25g of ammonium chloride in water and made up the solution to a volume of 200 cm³. Use the equation to calculate the concentration of this solution in g dm⁻³. (b) Dissolving ammonium chloride in water is an endothermic process. Figure 1 shows part of the reaction profile for this process. (ii) Complete the reaction profile in Figure 1 and label the activation energy. (c) A student used the equipment in Figure 2 to investigate whether electricity can pass through solid ammonium chloride and through ammonium chloride solution. If an electrical current flows in the circuit, the lamp will light up. Figure 3 shows the results of the investigation.

GCSE Edexcel Chemistry Combined Science Collision Theory & Activation Energy: 1 (a) The concentration of a sol

1 (a) The concentration of a solution can be calculated using the equation concentration of solution = \frac{mass \ of \ solid}{volume \ of \ solution} A student dissolved 9.25g of ammonium chloride in water and made up the solution to a volume of 200 cm³ - Edexcel - GCSE Chemistry Combined Science - Question 1 - 2021 - Paper 1

Question 1

$1-(a)-The-concentration-of-a-solution-can-be-calculated-using-the-equation-----concentration-of-solution-=---\frac{mass-\-of-\-solid}{volume-\-of-\-solution}--A-student-dissolved-9.25g-of-ammonium-chloride-in-water-and-made-up-the-solution-to-a-volume-of-200-cm³-Edexcel-GCSE Chemistry Combined Science-Question 1-2021-Paper 1.png$

1 (a) The concentration of a solution can be calculated using the equation concentration of solution = \frac{mass \ of \ solid}{volume \ of \ solution} A stud... show full transcript

Worked Solution & Example Answer:1 (a) The concentration of a solution can be calculated using the equation concentration of solution = \frac{mass \ of \ solid}{volume \ of \ solution} A student dissolved 9.25g of ammonium chloride in water and made up the solution to a volume of 200 cm³ - Edexcel - GCSE Chemistry Combined Science - Question 1 - 2021 - Paper 1

Step 1

(a) Use the equation to calculate the concentration of this solution in g dm⁻³.

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Answer

To calculate the concentration, we use the provided equation:

\text{concentration of solution} = \frac{\text{mass of solid}}{\text{volume of solution}}

The mass of ammonium chloride is 9.25 g.
The volume of the solution is 200 cm³, which we need to convert to dm³:
- (200 \ cm³ = 0.200 \ dm³)
Plugging the values into the equation: $\text{concentration} = \frac{9.25}{0.200} = 46.25 \ g \ dm^{-3}$

Hence, the concentration of the solution is 46.25 g dm⁻³.

Step 2

(b) Explain why dissolving ammonium chloride in water is an endothermic process.

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Answer

The process of dissolving ammonium chloride in water is endothermic because:

The ammonium chloride solution (product) has more energy than the ammonium chloride solid and the water (reactants).
Additionally, during the dissolution, the energy of the system increases and the energy change is positive.
Consequently, heat energy has been absorbed during the process.

Step 3

(ii) Complete the reaction profile in Figure 1 and label the activation energy.

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The reaction profile should show the progress of the dissolution process with energy on the y-axis and the reaction coordinate on the x-axis. The activation energy needs to be labeled, which is the energy difference between the reactants and the peak of the profile.

Step 4

(c) Explain the results of the investigation.

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Answer

From Figure 3, the investigation shows that:

Solid ammonium chloride did not light up the lamp, indicating that electricity did not pass through it.
However, the ammonium chloride solution lit up brightly, suggesting that the solution allowed current to flow, which implies it conducts electricity due to the presence of ions in solution.

(a) Use the equation to calculate the concentration of this solution in g dm⁻³.

(b) Explain why dissolving ammonium chloride in water is an endothermic process.

(ii) Complete the reaction profile in Figure 1 and label the activation energy.

(c) Explain the results of the investigation.

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