Interpretation: We cannot use osmotic pressure to determine both molar mass and percent ionization for unknown monoprotic acid has to be explained.
Concept introduction
Colligative properties depend only on the number of solute particle present, does not depend on type of the particle. Thus particle may be ions or molecules. If the particle may ions, the essential aspect is sum of the concentration of anions and cations. That is ‘Colligative’ represents collection of particle. Example for colligative properties,
- Boiling point elevation
- Freezing point depression
- Vapor pressure lowering
- Osmotic pressure
Osmotic pressure is the pressure that is needed to stop osmosis. Osmotic pressure of the solution is directly proportional to the concentration of the solution. We can calculate osmotic pressure by using this formula is given by,
Where,
Percent ionization: At particular concentration quantity of weak acid survive as ions known as percent ionization. This is calculated by using the formula is,
Molar mass: Molar mass is defined as mass of the chemical compound or chemical element divided by its amount.
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Chemistry: Atoms First
- Show that the complete chemical equation, the total ionic equation, and the net ionic equation for the reaction represented by the equation KI(aq)+I2(aq)KI3(aq) give the same expression for the reaction quotient. KI3 is composed of the ions K+ and I3-.arrow_forward15 16 17 18 19 20 21 22 23 24 = 25 26 Hydrogen chloride and oxygen react to form water and chlorine, líke this: 4HCI(g)+0,(g) → 2H,0(g)+2C,(g) Suppose a mixture of HCI, O2, H,0 and Cl, has come to equilibrium in a closed reaction vessel. Predict what change, if any, the perturbations in the table below will cause in the composition of the mixture in the vessel. Also decide whether the equilibrium shifts to the right or left. perturbation change in composition shift in equilibrium O to the right The pressure of O, will O to the left Some HCI is removed. The pressure of H2O will O (none) O to the right The pressure of HCI will O to the left Some H,0 is added. The pressure of O, will O (none) go up. go down. not change. Submit Continue MacBook Airarrow_forward1.) Kc for the reaction of tin (i) ions with iron (iii) ions Sn2+ (ag) +2FE3+ (aq) = Sn+ (aq) +2FE2+ (aq) is 1.0 x1010 at 298K. In an experiment at room temperature in which solutions of Sn2+ (aq) and Fe3+ (ag) were mixed, the equilibrium concentrations of tin ions were found to be [Sn²+ (aq)] = 0.050 mol dm³ Sn4+ (aq)] = 0.040 mol dm-3 Calculate the concentrations of iron(iii) and iron(ii) ions at equilibrium. %3Darrow_forward
- Methane and hydrogen sulfide react to form carbon disulfide and hydrogen, like this: CH,(2)+2H,S(2) - cs,(2)+4H,(e) Suppose a mixture of CH, H,S, CS, and H, has come to equilibrium in a closed reaction vessel. Predict what change, if any, the perturbations in the table below will cause in the composition of the mixture in the vessel. Also decide whether the equilibrium shifts to the right or left. th perturbation change in composition shift in equilibrium to the right The pressure of s will Some C, is added, to the left The pressure of CS, wil (nene) to the nght The pressure of CH, will to the len Some il, s removed, The pressure of H,A will (none)arrow_forwardAmmonia and oxygen react to form nitrogen and water, like this: 4NH, (g)+30, (g) → 2N,(g)+6H,0(g) Suppose a mixture of NH2, O,, N, and H,0 has come to equilibrium in a closed reaction vessel. Predict what change, if any, the perturbations in the table below will cause in the composition of the mixture in the vessel. Also decide whether the equilibrium shifts to the right or left. ol perturbation change in composition shift in equilibrium A to the right The pressure of O, will to the left Some NH, is removed. The pressure of N2 will O (none) to the right The pressure of NH3 will to the left Some N, is added. The pressure of O, will ? O (none)arrow_forward3. The vapor-liquid reactive equilibria for ethyl lactate synthesis follows the expression log K = 7.893 – (2.4312 x 10³)K/T between 83.12 °C and 101.54 °C. What are the AH°rxn, AG°rxn, and ASºrn at 85 °C? Ind. Eng. Chem. Res. 2008, 47, 5, 1453–1463arrow_forward
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