A metal oxide has a formula `Z_(2)O_(3)`. It can be reduced by hydrogen to give free metal and water. 0.01596g of the metal requires 6 mg of hydrogen for complete reduction. The atomic mass of the metal is

A metal oxide has the formula Z_(2)O_(3) . It can be reduced by hydrogen to give free metal and water. 0.1596 g of the metal requires 6 mg of hydrogen for complete reduction. The atomic mass of the metal is:

A metal oxide has the formula Z_(2)O_(3) . It can be reduced by hydrogen to give free metal and water . 0.1596 g of the metal oxide requires 6 mg of hydrogen for complete reduction . The atomic weight of the metal is

A metal oxide has the formular M_(2)O_(3) . It can be reduced by hydrogen to give free metal and water 0.1596g of the metal oxide required 6 mg hydrogen for complete reduction. The atomic weight of the metal is:

A metal oxide has the formul Z_(2)O_(3) . It can be reduced by hydrogen to give free metal and water. 0.2 g of the metal oxide requires 12 mg of hydrogen for complete reduction. The atomic weight of the metal is

A metal oxide has the formula A_(2)O_(3) . It can be reduced by hydrogen to give free metal and water. 0.1596 g of this metal oxide requires 6 mg of hydrogen for complete reduction. What is the atomic wight of metal?