at first, u have have been given to knw this: " a million mole of any gas occupies 24,000cm^3 at s.t.p" So, we've have been given to discover the quantity occupied by skill of 6.4g of sulphur dioxide at s.t.p. Now this implies that we could desire to transform that 6.4g of sulphur dioxide into moles. In different words, we can could desire to first discover out the form of moles in 6.4g of sulphur dioxide. with a view to try this -> Mass / Relative formulation Mass wherein the Mass is 6.4g and the Relative formulation Mass is 64g (32 + 2(sixteen)). So, whilst u divide that u get, 0.a million moles. Now we could pass back to the section the place we suggested a million mole of a gas occupies 24,000 cm^3 of quantity. which skill 0.a million mole of a gas will occupy : 0.a million*24,000cm^3 and that's 2400cm^3. Thats the respond. and that i see its no longer interior the strategies that u have supply. yet i'm incredibly specific thats the respond for this question. GoodLuck!!
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at first, u have have been given to knw this: " a million mole of any gas occupies 24,000cm^3 at s.t.p" So, we've have been given to discover the quantity occupied by skill of 6.4g of sulphur dioxide at s.t.p. Now this implies that we could desire to transform that 6.4g of sulphur dioxide into moles. In different words, we can could desire to first discover out the form of moles in 6.4g of sulphur dioxide. with a view to try this -> Mass / Relative formulation Mass wherein the Mass is 6.4g and the Relative formulation Mass is 64g (32 + 2(sixteen)). So, whilst u divide that u get, 0.a million moles. Now we could pass back to the section the place we suggested a million mole of a gas occupies 24,000 cm^3 of quantity. which skill 0.a million mole of a gas will occupy : 0.a million*24,000cm^3 and that's 2400cm^3. Thats the respond. and that i see its no longer interior the strategies that u have supply. yet i'm incredibly specific thats the respond for this question. GoodLuck!!