Calculate the weight of lime `(CaO)` that can be prepared by heating 200 kg of lime stone `(CaCO_(3))` which is `90%` pure.

Calculate the mass of lime that can be prepared by heating 200 kg of limestone that is 90% pure CaCO_3 CaCO_3 to CaO + CO_2 100 kg xx 10^(-3)" " 56 kg xx 10^(-3)

How much of lime (CaO) can be obtained by the calcinations of 300 g of lime stone?

How much of lime, CaO can be obtained by the calcination of 400 gm of lime stone?

Calculate the mass of CO_2 that would be obtained by completely dissolving 10 kg of pure CaCO_3 in HCl. CaCO_3 + 2HCl to CaCl_2 + H_2O + CO_2

A dark voilent solid X reacts with NH_(3) to form a mild explosive Y which decomposes to give a voilet coloured gas. X also reacts with H_(2) to give an acid Z. Z can also be prepared by heating its salt with H_(3) PO_(4) The mid Explosive Y is

A dark voilent solid X reacts with NH_(3) to form a mild explosive Y which decomposes to give a voilet coloured gas. X also reacts with H_(2) to give an acid Z. Z can also be prepared by heating its salt with H_(3) PO_(4) The dark violent solid X is

The equivalent weights of oxidising and reducing agents can be calculated by the number of electrons gained or lost. The equivalent weight of an oxidising agent is the number of parts by weight of the substance which gains one electron. Thus, it is equal to the molecular weight of the substance divided by the number of electrons gained in the balanced chemical equation. Similarly, equivalent weight of a reducing agent is equal to the molecular weight divided by the number of electrons lost as represented in the balanced chemical equation The equivalent weght of As_(2),S_3 in the following reaction As_(2)S_(3) + H^(+) + NO_(3)^(-) rarr NO + H_(2)O + AsO_(4)^(3-) + SO_(4)^(2-) is related to its molecular weight as

10 grams of a mixture of CaCO_(3) and MgCO_(3) require equal weight of sulphuric acid for complete reaction. Calculate the percentage weight of MgCO(3) in the mixture.