The following experiment was performed to investigate the relative activity of metals - HSC - SSCE Chemistry - Question 19 - 2004 - Paper 1

To calculate the concentration of copper sulfate remaining in the beaker after the reaction, we first determine how many moles of copper were deposited. The molar mass of copper is approximately 63.55 g/mol.

Using the weight of the copper deposited:

$ext{moles of Cu} = \frac{0.325 ext{ g}}{63.55 ext{ g/mol}} \approx 0.0051 ext{ mol}$

Since the reaction stoichiometry indicates that 1 mole of Cu is produced for every mole of CuSO₄ consumed, the moles of CuSO₄ that reacted equals 0.0051 mol.

Initially, we had 250.0 mL (or 0.250 L) of 0.050 mol L⁻¹ CuSO₄ solution:

$\text{Initial moles of CuSO}_4 = 0.250 ext{ L} \times 0.050 ext{ mol L}^{-1} = 0.0125 ext{ mol}$

After the reaction, the remaining moles of CuSO₄:

$\text{Remaining moles} = 0.0125 ext{ mol} - 0.0051 ext{ mol} = 0.0074 ext{ mol}$

Now, we calculate the concentration of the remaining solution:

$\text{Concentration} = \frac{0.0074 ext{ mol}}{0.250 ext{ L}} = 0.0296 ext{ mol L}^{-1}$

The concentration of the copper sulfate solution remaining in the beaker is approximately 0.030 mol L⁻¹.