9.44 g of a metal oxide is formed by the combination of 5 g of the metal. Calculate the equivalent weight of the metal.

14.7 g of sulphuric acid was needed to dissolve 16.8 g of a metal. Calculate the equivalent weight of the metal and the volume of hydrogen liberated at NTP.

2 g of a metal when dissolved in nitric acid converted to its nitrate. The nitrate was then precipitated to 2.66 g of the metal chloride. Find the equivalent weight of the metal.

The vapour density of a volatile chloride of a metal is 74.6. If the specific heat of the metal is 0.55, calculate the exact atomic weight of the metal and the formula of its chloride.

1.80 g of a metal oxide required 833 mL of hydrogen at NTP to be reduced to its metal. Find the equivalent weights of the oxide and the metal.

The chloride of a metal .M. contains 47.23% of the metal. 1 g of this metal displaced from a compound 0.88 g of another metal .N.. Find the equivalent weight of .M. and .N. respectively.

0.2 g of oxygen and 3.17 g of a halogen combine separately with the same amount of a metal. What is the equivalent weight of the halogen?

The vapour density of a volatile chloride of a metal is 95 and the specific heat of the metal is 0.13. The equivalent weight of the metal will be approximately

The equivalent weight of a metal is 12. What is the equivalent weight of its oxide?

If one gram of a metal carbonate gave 0.56g of its oxide on heating, then equivalent weight of the metal will be

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?