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 hydroge

Question

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 hydroge

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:

Monjur Alahi

5 views

2025-01-04 04:42

1 Answers

Related Questions

A nitrate decomposes thermally to give an oxide of group 15 element. This oxide cannot be obtained by direct combination of the element and the oxygen

2 Answers 4 Views

A person makes two types of gift items A and B requires the services of a cutter and a finisher. Gift item A requires 4 hours of cutter’s time

2 Answers 7 Views

What is the ratop of the enthalpy yield on combustion of hydrogen of hydrogen atoms to steam to the yield on combustion of an equal mass of hydrogen m

2 Answers 4 Views

A transition metal M can exist in two oxidation states +2 and +3 It forms an oxide whose experiments formula is given by `M_xO` where `xlt1` Then the

2 Answers 8 Views

2.0 g of a metal burnt in oxygen gave 3.2 g of its oxide. 1.42 g of the same metal heated in steam gave 2.27 of its oxide.

2 Answers 5 Views

Assuming the atomic weight of a metal M to be 56, find the empirical formula of its oxide containing 70.0% of M.

2 Answers 4 Views

`XeF_4` disproportionates in water giving reduced and oxidised products What is the ratio of oxidation states of Xe in the reduced and the oxidised pr

2 Answers 5 Views

Urey and his co-workers evaporated liquid hydrogen near its triple point (13.9 K) under reduced pressure, when 4 litres of liquid hydrogen is reduced

2 Answers 4 Views

1.80 g of a certain metal burnt in oxygen gave 3.0 g of its oxide. 1.50 g of the same metal heated in steam gave 2.50 g of its oxide. Show that these

2 Answers 5 Views

30mL of a gaseous hydrocarbon requires 90mL of `O_(2)` for complete oxidation, 60mL of `CO_(2)` gas is formed in the process. The molecular formula of

2 Answers 5 Views

Salim Ahmed Kawsar · Accepted Answer · 2023-02-05T15:29:48+06:00

Salim Ahmed Kawsar

Correct Answer - c
`Z_(2)O_(3)+3H_(2)(g) to 2Z+3H_(2)O`
`therefore "6g "H_(2)" gives 2 mole Z"`
`therefore 6xx10^(-3)"g "H_(2)" will give 0.002 mole Z"`
`"Number of moles"=("Mass")/("Molar mass")`
`0.002=(0.1596)/("Molar mass")`
`"Molar mass"=(0.1596)/(0.002)=79.8"g mol"^(-1)`

5 views Answered 2023-02-05 15:29