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To prepare a 0.5 normal (0.5 N) hydrochloric acid (HCl) solution, you will need to follow these steps:

  1. Obtain the necessary materials and equipment: You will need concentrated hydrochloric acid (typically 36-38% concentration), a balance or weighing scale, distilled water, a volumetric flask (500 mL or larger), and appropriate safety equipment such as gloves and goggles.

  2. Calculate the required amount of concentrated HCl: The normality (N) of a solution is defined as the number of equivalents of solute per liter of solution. In the case of HCl, each mole of HCl contributes one equivalent since it donates one proton (H+). To prepare a 0.5 N solution, you need to determine the amount of HCl required in moles.

    Since concentrated HCl is typically sold by weight percent, you will need to convert the desired normality to molarity (M) to calculate the required amount. The molarity is related to normality by the equation: Molarity (M) = Normality (N) × Equivalent weight (EW).

    The equivalent weight of HCl is its molar mass divided by the number of equivalents. The molar mass of HCl is approximately 36.46 g/mol, and since HCl donates one proton, the equivalent weight is also 36.46 g/mol.

    Thus, to prepare a 0.5 N HCl solution, the required concentration in moles per liter (M) is 0.5 × 36.46 = 18.23 M.

  3. Dilute the concentrated HCl: Since the concentrated HCl solution is highly corrosive and its handling requires caution, it is important to add the concentrated acid to water and not vice versa. Follow these steps to prepare the 0.5 N HCl solution:

    a. Put on appropriate safety equipment, including gloves and goggles. b. Add about 300-400 mL of distilled water to the volumetric flask to ensure there is sufficient space for the concentrated HCl to be added. c. Carefully measure the calculated amount of concentrated HCl (in grams) using a balance or weighing scale. Slowly and cautiously pour the concentrated acid into the volumetric flask containing the water. d. Swirl the flask gently to aid mixing and dissolve the concentrated HCl in the water. e. Once the acid has dissolved completely, add more distilled water to the flask until the solution reaches the 500 mL mark on the volumetric flask. Be careful not to exceed the mark. f. Stopper the flask and mix the solution thoroughly by inverting it a few times. g. Allow the solution to cool to room temperature if necessary.

Remember to handle concentrated HCl with care as it is a strong acid and can cause burns or other hazards. Always follow appropriate safety precautions, work in a well-ventilated area, and consult any additional safety guidelines provided by the manufacturer.

Please note that the above steps are general guidelines, and it is important to consult specific protocols or standard operating procedures (SOPs) provided by your institution or laboratory for accurate and safe preparation of chemical solutions.

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