Given: A 0.1M KI solution reacts according to
5I−+IO3−+6H+→3I2+3H2O
Find: Which among statements (A) to (D) are correct.
For 200mL=0.2L of 0.1M KI, moles of iodide are
nI−=0.1×0.2=0.02mol
From the balanced reaction, 5 moles of I− react with 1 mole of IO3−. Therefore, required moles of KIO3 are
50.02=0.004mol
So statement (A) is correct.
For acid requirement, 5 moles of I− need 6 moles of H+. Hence for 0.02mol of I−,
nH+=56×0.02=0.024mol
Since each H2SO4 gives 2H+, required moles of H2SO4 are
20.024=0.012mol
Therefore statement (B) is false.
For 0.5L of 0.1M KI, moles of I− are
0.1×0.5=0.05mol
From the reaction, 5 moles of I− produce 3 moles of I2. Thus,
nI2=53×0.05=0.03mol
So statement (C) is false. The solution also indicates a discrepancy with one approach that mentioned 0.005mol, but the detailed stoichiometric calculation gives 0.03mol, which is consistent with the balanced equation.
For KIO3, the iodate ion undergoes a 5-electron change in this redox process. Therefore, its equivalent weight is
5Molecular weight
Hence statement (D) is correct.
Therefore, the correct statements are (A) and (D) only. The correct option is A.