# 考古題 99-5 Relative error : ( Ksp’ – Ksp ) / Ksp x 100% Ksp = (γCd2+ x [Cd2+])2 x ( γFe(CN6)4- x [Fe(CN)64-]) 考古題 98-6 Relative error : ( Ka’ – Ka.

## Presentation on theme: "考古題 99-5 Relative error : ( Ksp’ – Ksp ) / Ksp x 100% Ksp = (γCd2+ x [Cd2+])2 x ( γFe(CN6)4- x [Fe(CN)64-]) 考古題 98-6 Relative error : ( Ka’ – Ka."— Presentation transcript:

= (γAm γBn )1/(m+n) c) Z = 3 γM : ZM : μ : αM : activity coefficient of the species M3+ charge on the species M3+ ionic strength of the solution effective diameter of the hydrated ion M3+ in nanometers

μ = ½ (0.015 x x 12) = 0.09 ZA : # of charge  A+ ZB : # of charge  B+ αA  effective diameter of the hydrated ion A αB  effective diameter of the hydrated ion B

Example 17-1 Calculate the molar Y4- concentration in a M EDTA solution buffered to a pH of 10.00 試求下列溶液的[Y4-]， M EDTA 溶液，pH值為10.00

Example 17-2 Calculate the equilibrium concentration of Ni2+ in a solution with an analytical NiY2- concentration of M at pH (a) 3.0 and (b) 8.0 計算在不同pH值下，0.0150M的[NiY2-]溶液中有多少[Ni2+] 利用conditional formation constant 解題

Example 17-3 Calculate the concentration of Ni2+ in a solution that was prepared by mixing 50.0mL of M Ni2+ with 50.00mL of 0.05M EDTA. The mixture was buffered to a pH of 3.0 將50.0mL，0.0300M Ni2+與50.00mL，0.05M EDTA溶液混 合，並將混合液的pH值調整至3.0。試計算Ni2+的濃度

Example 15-35 Construct a titration curve for mL of M Fe2+ with M EDTA in a solution buffered to pH 7.0. Calculate pFe values after the addition of 0.00, 10.00, 24.00, 25.00, 26.00, and mL of titrant. 試求各滴定過程的[Fe2+] , 並繪製滴定曲線圖 當量點前  直接計算[Fe2+]的剩餘量 當量點時 由Kf與[Fe2+]的關係式;其中CT=[Fe2+],解[Fe2+] 當量點後 由Kf與[Fe2+]的關係式;其中CT為EDTA的剩餘量,解[Fe2+]

[MIn-]/[HIn2-] ≤ 1/10 ~blue, after end point (pM large) 試導出溶液顯色為紅色時,pPb與Ka1,Ka2,Kf之間的關係式(當pH=9)

[MIn-]/[HIn2-] ≤ 1/10 ~blue, after end point (pM large)

Excess EDTA  blue blue pCa red Volume of EDTA (ml)

Kf : CaY2- > MgY2- 加入過量Mg-EDTA(MgY2-), 再加入EDTA滴定; 溶液由RedBlue pCa
Volume of EDTA (ml)

A 0.3284-g sample of brass(containing lead, zinc, copper, and tin)
Pb2+ , Zn2+ , Cu2+ , Sn2+ (total : g) The sparingly soluble SnO2 ‧4H2O was removed by filtration, and the combined filtrate and washings were then diluted to mL. Removed Sn2+ A mL aliquot was then suitably buffered; titration of this aliquot required mL of M EDTA. Titrated  (Pb2+ , Zn2+ , Cu2+) mL x M EDTA x (500/10) mL The copper in a mL aliquot was masked with thiosulfate; the solution was then titrated with mL of EDTA solution Mask  Cu2+ Titrated  (Pb2+ , Zn2+) mL x M EDTA x (500/25) mL Cyanide ion was used to mask the copper and zinc in a 100-mL aliquot; mL of the EDTA solution were needed to titrate this aliquot Mask  Zn2+ , Cu2+ Titrated  (Pb2+) mL x M EDTA x (500/100) mL

Titrated  (Pb2+ , Zn2+ , Cu2+) 37. 56mL x 0
Titrated  (Pb2+ , Zn2+ , Cu2+) mL x M EDTA x (500/10) mL = mmol Titrated  (Pb2+ , Zn2+) mL x M EDTA x (500/25) mL = mmol Titrated  (Pb2+) mL x M EDTA x (500/100) mL = mmol (Zn2+) – = mmol (Cu2+) – = mmol (Cu2+)%  x / g x 100% = 64.08% (Zn2+)%  x / g x 100% = 24.86% (Pb2+)%  x / g x 100% = 8.518% (Sn2+)%  100% - (Cu2+)%- (Zn2+)% - (Pb2+)% = 2.54%

Exercise Chromel is an alloy composed of nickel, iron, and chromium. A g sample was dissolved and diluted to mL. When a mL aliquot of M EDTA was mixed with an equal volume of the diluted sample, all three ions were chelated and a 5.11 mL back titration with M copper(II) was required. The chromium in a second 50.0 mL aliquot was masked through the addition of hexamethylene-tramine; titration of the Fe and Ni required mL of M EDTA. Iron and chromium were masked with pyrophosphate in a third 50.0 mL aliquot, and the nickel was titrated with mL of the EDTA solution. Calculate the percentages of nickel, chromium, and iron in the alloy. 1. Chromel is an alloy composed of nickel, iron, and chromium 2. A g sample was dissolved and diluted to mL 3. When a mL aliquot of M EDTA was mixed with an equal volume of the diluted sample, all three ions were chelated and a 5.11 mL back titration with M copper(II) was required 4. The chromium in a second 50.0 mL aliquot was masked through the addition of hexamethylenetramine; titration of the Fe and Ni required mL of M EDTA 5. Iron and chromium were masked with pyrophosphate in a third 50.0 mL aliquot, and the nickel was titrated with mL of the EDTA solution.

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