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15 September, 16:06

1. In preparing Solution 3 for the kinetics rate runs, a student weighed our 0.2653 g of dye (molecular weight 879.9 g/mol. This was transferred to a 100 mL volumetric flask and water was add to make 100.00 mL of solution 1. A 10.00 mL aliquot of solution 1 was diluted to 100.00 mL to make solution 2 and a 5.00 mL aliquot of solution 2 was then diluted to 100.00 mL to make solution 3. Calculate the concentration of solution 3 in weight/volume percent (w/v%), parts per million (ppm), and molarity (M). Report the correct number of significant figures.

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  1. 15 September, 19:59
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    Weight of the dye in solution 1 = 0.2653 g in 100 mL

    Weight of the dye in solution 2 = 0.02653 g in 100 mL

    Weight of the dye in solution 1 = 0.0013265 g in 100 mL

    The percentage concentration can be calculated by using the formula:

    percentage concentration = (weight of the substance / volume of the solution) * 100

    For Solution (1)

    percentage concentration = (0.2653 / 100) * 100

    percentage concentration = 0.2653%

    percentage concentration = 0.267 % (to significant figure)

    For solution (2)

    percentage concentration = (0.02653 / 100) * 100

    percentage concentration = 0.02653%

    percentage concentration = 0.0267 % (to significant figure)

    For the final percentage concentration for Solution (3)

    percentage concentration = (0.0013265 / 100) * 100

    percentage concentration = 0.0013265%

    percentage concentration = 0.0013 % (to significant figure)

    The mg/L for solution (1) is:

    = 265.3 mg/0.1 L

    = 2653 mg/L

    The mg/L for solution (2) is:

    = 26.53 mg/0.1 L

    = 265.3 mg/L

    The mg/L for solution (3) is:

    = 1.3265 mg/0.1 L

    = 13.265 mg/L

    Molarity = (given weight/molecular weight) * (volume of the solution in L / 1.0 L)

    For solution (1):

    Molarity = (0.2653 / 879.9) * (0.1 L / 1 L)

    = 3.128*10⁻⁵ M

    For solution (2)

    Molarity = (0.02653 / 879.9) * (0.1 L / 1 L)

    = 3.015*10⁻⁶ M

    For solution (3)

    Molarity = (0.0013265 / 879.9) * (0.1 L / 1 L)

    = 1.508*10⁻⁷M
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