To calculate the standard enthalpy change for the reaction, we need to first find the heat released or absorbed during the reaction q and then divide it by the number of moles of the limiting reactant.1. Calculate the mass of the solution:The total volume of the solution is 50 ml HCl + 50 ml NaOH = 100 ml.Assuming the density of the solution is approximately equal to that of water 1 g/ml , the mass of the solution is 100 ml 1 g/ml = 100 g.2. Calculate the heat released or absorbed q during the reaction:q = mass specific heat capacity temperature changeq = 100 g 4.18 J/gC 5Cq = 2090 J3. Determine the limiting reactant and calculate the number of moles:Both HCl and NaOH have the same concentration 0.1 M and volume 50 ml , so they will react in a 1:1 ratio. Therefore, there is no limiting reactant in this case.Number of moles of HCl = concentration volume in liters Number of moles of HCl = 0.1 M 50 ml 1 L / 1000 ml Number of moles of HCl = 0.005 mol4. Calculate the standard enthalpy change H for the reaction:H = q / number of molesH = 2090 J / 0.005 molH = 418000 J/molThe standard enthalpy change for the reaction is 418 kJ/mol.