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Volumetric Analysis
- 11.1 - Volumetric Analysis
View PDFDownload PDF - 11.2 - Experiment-1 - Prepare 250 ml of M/10 Solution of Oxalic Acid From Crystalline Oxalic Acid
View PDFDownload PDF - 11.3 - Experiment-2 - Prepare 250 ml of a N/10 Solution of Oxalic Acid from Crystalline Oxalic Acid
View PDFDownload PDF - 11.4 - Experiment-3 - Preparation of 250 ml of M/20 Solution of Mohr’s Salt
View PDFDownload PDF - 11.5 - Experiment-4 - Preparation of 250 ml of N/20 Solution of Mohr’s Salt
View PDFDownload PDF - 11.6 - Experiment-5 - Prepare M/20 Solution of Ferrous Ammonium Sulphate (Mohr’s salt). Using this Solution Find out the Molarity and Strength of the Given KMnO4 Solution
View PDFDownload PDF - 11.7 - Experiment-6 - Prepare a Solution of Ferrous Ammonium Sulphate (Mohr’s salt) Containing Exactly 17.0 g of the Salt in one litre. With the help of this Solution, Determine the Molarity and the Concentration of KMnO4 in the Given Solution
View PDFDownload PDF - 11.8 - Experiment-7 - Prepare M/20 Ferrous Ammonium Sulphate (Mohr’s salt) Solution. Find out the Percentage Purity of Impure KMnO4 Sample 2.0 g of Which have been Dissolved per Litre
View PDFDownload PDF - 11.9 - Experiment-8 - Determine the Equivalent Mass and Number of Molecules of Water of Crystallisation in a Sample of Mohr’s salt, FeSO4(NH4)2 SO4 . nH20. Provided KMnO4
View PDFDownload PDF - 11.10 - Experiment-9 - Prepare M/50 Solution of Oxalic Acid. With its help, Determine 50 the Molarity and Strength of the Given Solution of Potassium Permanganate (KMnO4)
View PDFDownload PDF - 11.11 - Experiment-10 - Find out the Percentage Purity of Impure Sample of Oxalic Acid.You are Supplied M/100 KMnO4 Solution
View PDFDownload PDF - 11.12 - Experiment-11 - The Given Solution has been Prepared by Dissolving 1.6 g of an Alkali Metal Permanganate per Litre of Solution. Determine Volumetrically the Atomic mass of the Alkali metal. Prepare M/20 Mohr’s salt Solution for Titration
View PDFDownload PDF - 11.13 - Experiment-12 - Determine The Percentage Composition Of A Mixture Of Sodium Oxalate And Axalic Acid. Provided M/100 KMnO4 Solution.
View PDFDownload PDF - 11.14 - Experiment-13 - You are Provided with a Partially Oxidised Sample of Ferrous Sulphate (FeSO4.7H20) Crystals. Prepare a Solution by Dissolving 14.0 g of these Crystals per litre and Determine the Percentage Oxidation of the given Sample. Given M/100 KMnO4 Solution
View PDFDownload PDF - 11.15 - Experiment-14 -Calculate the Percentage of Fe2+ ions in a Sample of Ferrous Sulphate. Prepare a Solution of the given Sample having Strength Exactly Equal to 14.0 g/litre. Provided M/100 KMnO4
View PDFDownload PDF - 11.16 - Experiment-15 - Prepare N/20 Mohr’s salt Solution. Using this Solution, Determine the Normality and Strength of the Given Potassium Permanganate Solution
View PDFDownload PDF - 11.17 - Experiment-16 - Prepare N/20 Solution Of Oxalic Acid. Using This Solution, Find Out Strength And Normality Of The Given Potassium Permanganate Solution
View PDFDownload PDF - 11.18 - Experiment-17 - Determine The Percentage Purity Of The Given Sample Of Oxalic Acid. Ask For Your Requirement
View PDFDownload PDF - 11.19 - Experiment-18 - Determine the Percentage Composition of a Mixture of Sodium Oxalate and Oxalic Acid. Provided N/20 KMnO4
View PDFDownload PDF - 11.20 - Experiment-19 - Determine The Equivalent Mass And Number Of Molecules Of Water Of Crystallisation In A Sample Of Mohr’s Salt Feso4 (Nh4)2 So4.nh20. Provided N/20 Kmno4
View PDFDownload PDF - 11.21 - Volumetric Analysis Viva Questions with Answers
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