`2 g` of a metal in `H_(2) SO_(4)` gives `4.51 g` of the metal sulphate. The specific heat of metal is `0.057 cal g^(-1)`. Calculate the valency and atomic weight of metal.

On dissolving 2.0 g of metal in sulphuric acid, 4.51 g of the metal sulphate was formed. The specific heat of metal is 0.057 cal g^(-1) . What is valency of the metal and exact atomic mass ?

On dissolving 2.0 g of metal in sulphuric acid ,4.51 g of the metal sulphate was formed . The specific heat of the metal is 0.057 cal g^(-1).^(@)C^(-1) . What is the valency of metal ?

On dissolving 2.0 g of metal in sulphuric acid ,4.51 g of the metal sulphate was formed . The specific heat of the metal is 0.057 cal g^(-1).^(@)C^(-1) . What is the valency of metal ?

On dissolving 2.0 g of metal in sulphuric acid ,4.51 g of the metal sulphate was formed . The specific heat of the metal is 0.057 cal g^(-1).^(@)C^(-1) . What is the valency of metal ?

On dissolving 2.0 g of a metal in sulphuric acid, 4.51 grams of the metal sulphate was formed. The specific heat of the metal is 0.057 cal/g. What is the valency of the metal and its exact atomic weight?

Specific heat of a metal is 0.031 cal per gram, and its eq. wt is 103.6 Calculate the exact atomic weight of the metal.

7.38 g of a sample of a metal oxide is quantitatively reduced to 6.84 g of pure metal. If the specific heat of the metal is 0.0332 cal/g, calculate the valency and the accurate atomic weight of the metal.