2.0267 g of the nitrate of a univalent metal was heated with excess of previously ignited silica. A loss in weight of 1.08 g took place due to the total expulsion of the nitrate part of the salt as `N_2O_5`, calculate the percentage of `NO_3^(ɵ)` group in the salt analysed.

A mixture contains equi-molar quantities of carbonates of two bivalent metals. One metal is present the extent of 13.5% by weight in the mixture and 2.50 g of the mixture on heating leaves a residue of 1.18 g . Calculate the percentage by weight of the other metal.

0.5g mixture of K_2Cr_2 O_7 and KMnO_4 was treated with excess of KI in acidic medium. Iodine liberated required 150cm^3 of 0.1N solution of thiosulphate solution for titration. Find the percentage of K_2 Cr_2 O_7 in the mixture :

Chile salt peter a source of NaNO_(3) also contains NaIO_(3) the NaIO_(3) is a source of I_(2) produced as shown in the following equation: Step I: IO_(3)^(ɵ)+3HSO_(3)^(ɵ)+3SO_(4)^(2-) Step II: 5I^(ɵ)+IO_(3)^(ɵ)+6H^(o+)to3I_(2)(s)+3H_(2)O One litre sample of chile salt peter solution containing 6.6 g NaIO_(3) is treated with NaHSO_(3) Now an additional amount of same solution is added to the reaction mixture to bring about the second titration. Calculate the weight of NaHSO_(3) requried in step I and what additional volume of chile salt peter mist be added in step II to bring out complete conversion of I^(ɵ) to I_(2) .

In a constant volume calorimeter, 3.5 g of a gas with molecular weight 28 was burnt in excess oxygen at 298.0 K . The temperature of the calorimeter was found to increase from 298.0 K to 298.45 K due to the combustion process. Given that the heat capacity of the calorimeter is 2.5 kJ K^(-1) , find the numerical value for the enthalpy of combustion of the gas in kJ mol^(-1)

In a constant volume calorimeter, 3.5 g of a gas with molecular weight 28 was burnt in excess oxygen at 298.0 K . The temperature of the calorimeter was found to increase from 298.0 K to 298.45 K due to the combustion process. Given that the heat capacity of the calorimeter is 2.5 kJ K^(-1) , find the numerical value for the enthalpy of combustion of the gas in kJ mol^(-1)

0.5 g CaBr_2 was dissolved in water and the solution is acidified with nitric acid, 50 " mL of " standard 0.1N AgNO_3 is added and the solution is shaken thoroughly, the remaining Ag^(o+) ions required 15 " mL of " 0.1 N NH_4CNS solution using ferric alum as the indicator. Calculate the percentage of CaBr_2 in the sample.

A 2.5 g sample of hydrate of Ca (NO_(3))_(2) was heated and only 1. 7 g of anhydrous salt remained. What percentage of water was in the hydrate ?

Hydroxylamine reduce iron (III) according to the equation : 2NH_(2)OH + 4 Fe^(3+) rarr N_(2)O(g)uarr + H_(2)O + 4Fe^(2+) + 4H^(+) Iron (II) thus produced is estimated by titration with a standard permanganate solution. The reaction is MnO_(4)^(-) + 5 Fe^(2+) + 8H^(+) rarr Mn^(2+) + 5Fe^(3+) + 4H_(2)O A 10 mL sample of hydroxylamine solution was diluted to 1 litre. 50 mL of this diluted solution was boiled with an excess of iron (III) solution. The resulting solution required 12 mL of 0.02 M KMnO_(4) solution for complete oxidation of iron (II). Calculate the weight of hydroxylamine in one litre of the original solution

1.60 g of a metal were dissolved in HNO_3 to prepare its nitrate. The nitrate was strongly heated when 2.0 g of the metal oxide was obtained. Calculate the equivalent weight of the metal.

The same current if passed through solution of silver nitrate and cupric salt connected in series. If the weights of silver deposited is 1.08g . Calculate the weight of copper deposited