1.44 gram of titanium (At . Mass =48) reaction whit excess of `O_(2)` and produce x garm of non-stoichiometric compound `Ti_(1.44)O`.The value of X is :

1.44 gram of Titanium (Ti) reacted with excess of O_(2) and produced x gram of non-stoichiometric compound Ti ._(0.44)O . The value of x will be :[Ti = 48]

1.44 gram if titanium (Ti) reacted with excess of O_(2) and produce x gram of non - stoichiometric compound Ti_(1.44)O . The value of x is :

1, 44 gran if tutanium (Ti) reacted with excess of O_(2) and produce x gram of non - stoichiometric compound Ti_(1.44)O . The value of x is :

1 mole of equimolar mixture of Fe_(2)(C_(2)O_(4))_(3) and FeC_(2)O_(4) required X moles of KMnO_(4) in acid medium for complete reaction. The value of X is:

Perovskite is a mineral composed of Ca, Ti and oxygen, cations of titanium lie at the centre, oxides ions at the face centres and calcium ions lie at corners. In this compound the oxidation number of Titanium is +x . Find the value of x?

2 grams of a gas mixture of CO and CO_2 on reaction with excess I_2 O_5 yields 2.54 grams of I_2 . What would be the mass% of CO in the original mixture?

What is mass of O_(2) required to produce 960gm of O_(3) if % yield of reaction 30_(2)rarr 2O_(3) is 50% ? .

If x gram equivalents of O_(2) are consumed by Cu_(2)S on roasting, (x)/(a) gram equivalents of each of CuO and SO_(2) are produced with respect to O_(2) . Find the value of a.

90 gm mixture of H_(2) and O_(2) is taken In stoichiometric ratio and gives H_(2)O with 50% yield. The produced mass of H_(2)O (in gm) is :

Consider the following unbalanced redox reaction: H_(2)O+AX+BYrarrHA+OY+X_(2)B The oxidation number of X is -2 and niether X nor water is involved in the redox process. If the above reaction is balanced with smallest whole number coefficients, the sum of the stoichiometric coefficients of all the compound is