100 kg of an industrial detergent (MW = 300 g/mol) is dumped into a river, and is initially confined to about 10 m3of the river. The critical micelle concentration is ~0.1 mM.
a.)Does the detergent form colloidal particles?
b.) If the detergent forms 1 m particles, with average densities of 1.75 g/mL, what would be the particle concentration in particles per m3of water?
100 kg of an industrial detergent (MW = 300 g/mol) is dumped into a river, and...
A 100.0 mL100.0 mL solution containing 0.927 g0.927 g of maleic acid (MW=116.072 g/mol)(MW=116.072 g/mol) is titrated with 0.275 M KOH.0.275 M KOH. Calculate the pH of the solution after the addition of 58.0 mL58.0 mL of the KOHKOH solution. Maleic acid has p?apKa values of 1.92 and 6.27. pH= At this pH, calculate the concentration of each form of maleic acid in the solution at equilibrium. The three forms of maleic acid are abbreviated as H2M,H2M, HM−,HM−, and M2−,M2−,...
A 100.0 mL solution containing 0.956 g of maleic acid (MW = 116.072 g/mol) is titrated with 0.350 M KOH. Calculate the pH of the solution after the addition of 47.0 mL of the KOH solution. Maleic acid has pKa values of 1.92 and 6.27 pH At this pH, calculate the concentration of each form of maleic acid in the solution at equilibrium. The three forms of maleic acid are abbreviated as H,M, HM, and M2, which represent the fully...
A 100.0 mL solution containing 0.990 g of maleic acid (MW = 116,072 g/mol) is titrated with 0.363 M KOH. Calculate the pH of the solution after the addition of 47.0 mL of the KOH solution. Maleic acid has pK, values of 1.92 and 6.27. pH = At this pH, calculate the concentration of each form of maleic acid in the solution at equilibrium. The three forms of maleic acid are abbreviated as H, M, HM", and M-, which represent...
A 100.0 mL solution containing 0.965 g of maleic acid (MW=116.072 g/mol) is titrated with 0.339 M KOH. Calculate the pH of the solution after the addition of 49.0 mL of the KOH solution. Maleic acid has p?a values of 1.92 and 6.27. pH= At this pH, calculate the concentration of each form of maleic acid in the solution at equilibrium. The three forms of maleic acid are abbreviated as H2M, HM−, and M2−, which represent the fully protonated, intermediate,...
A 100.0 ml solution containing 0.949 g of maleic acid (MW = 116.072 g/mol) is titrated with 0.303 M KOH. Calculate the pH of the solution after the addition of 54.0 mL of the KOH solution, Maleic acid has pk, values of 1.92 and 6.27. pH = At this pH, calculate the concentration of each form of maleic acid in the solution at equilibrium. The three forms of maleic acid are abbreviated as H,M, HM, and MP, which represent the...
A 100.0 mL solution containing 0.750 g of maleic acid (MW=116.072 g/mol) is titrated with 0.264 M KOH. Calculate the pH of the solution after the addition of 49.0 mL of the KOH solution. Maleic acid has pKa values of 1.92 and 6.27. pH= At this pH, calculate the concentration of each form of maleic acid in the solution at equilibrium. The three forms of maleic acid are abbreviated as H2M, HM−, and M2−, which represent the fully protonated, intermediate,...
A 100.0 ml solution containing 0.972 g of maleic acid (MW = 116.072 g/mol) is titrated with 0.328 M KOH. Calculate the pH of the solution after the addition of 51.0 ml. of the KOH solution. Malcic acid has pK, values of 1.92 and 6.27. pH = At this pH, calculate the concentration of each form of maleic acid in the solution at equilibrium. The three forms of malcic acid are abbreviated as H, M, HM, and M?, which represent...
A 100.0 mL solution containing 0.889 g of maleic acid (MW=116.072 g/mol) is titrated with 0.295 M KOH. Calculate the pH of the solution after the addition of 52.0 mL of the KOH solution. Maleic acid has p?a values of 1.92 and 6.27. pH= At this pH, calculate the concentration of each form of maleic acid in the solution at equilibrium. The three forms of maleic acid are abbreviated as H2M, HM−, and M2−, which represent the fully protonated, intermediate,...
A 100.0 mL solution containing 0.939 g of maleic acid (MW=116.072 g/mol) is titrated with 0.270 M KOH. Calculate the pH of the solution after the addition of 60.0 mL of the KOH solution. Maleic acid has p?a values of 1.92 and 6.27. pH= At this pH, calculate the concentration of each form of maleic acid in the solution at equilibrium. The three forms of maleic acid are abbreviated as H2M, HM−, and M2−, which represent the fully protonated, intermediate,...
A 100.0 mL solution containing 0.852 g of maleic acid (MW = 116.072 g/mol) is titrated with 0.277 M KOH. Calculate the pH of the solution after the addition of 53.0 mL of the KOH solution. Maleic acid has pK, values of 1.92 and 6.27. pH = -.57 At this pH, calculate the concentration of each form of maleic acid in the solution at equilibrium. The three forms of maleic acid are abbreviated as H, M, HMⓇ, and M2-, which...