Calculate the no. of moles and the no. of molecules present in 1.4 g of ethylene gas (C 2 H 4 ). What is the vol. occupied by the same amount of C 2 H 4 . State the vapour density of C 2 H 4 . (Avog. No. = 6 × 10 23 ; C = 12, H = 1]

Gram molecular mass of C 2 H 4 = 2(12) + 4(1) = 24 + 4 = 28 g As, 28 g of C 2 H 4 = 1 mole 1.4 g of C 2 H 4 = x 1.4 = 0.05 moles 1 mole = 6 × 10 23 molecules 0.05 moles = 6 × 10 23 x 0.05 = 3 x 10 22 molecules Hence, no. of moles is 0.05 and no. of molecules is 3 x 10 22 . Vol. occupied by 1 mole = 22.4 lit Vol. occupied by 0.05 moles = 22.4 x 0.05 = 1.12 lit. Hence, vol. occupied is 1.12 lit and vapour density is 14

Chemistry

Calculate the no. of moles and the no. of molecules present in 1.4 g of ethylene gas (C₂H₄). What is the vol. occupied by the same amount of C₂H₄. State the vapour density of C₂H₄.
(Avog. No. = 6 × 10²³ ; C = 12, H = 1]

Stoichiometry

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Chemistry

Calculate the no. of moles and the no. of molecules present in 1.4 g of ethylene gas (C2H4). What is the vol. occupied by the same amount of C2H4. State the vapour density of C2H4.(Avog. No. = 6 × 1023 ; C = 12, H = 1]

Stoichiometry

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Calculate the no. of moles and the no. of molecules present in 1.4 g of ethylene gas (C₂H₄). What is the vol. occupied by the same amount of C₂H₄. State the vapour density of C₂H₄.
(Avog. No. = 6 × 10²³ ; C = 12, H = 1]

Calculate the amount of each reactant required to produce 750 ml of carbon dioxide as per the equation.
2CO + O₂ ⟶ 2CO₂
State the law associated in the question.

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A gas cylinder contains 24 × 10²⁴ molecules of nitrogen gas. If Avogadro's number is 6 × 10²³ and the relative atomic mass of nitrogen is 14, calculate :
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