$\frac{{\mathbf{V}}_{\mathbf{1}}}{{\mathbf{n}}_{\mathbf{1}}}\mathbf{=}\frac{{\mathbf{V}}_{\mathbf{2}}}{{\mathbf{n}}_{\mathbf{2}}}\phantom{\rule{0ex}{0ex}}{\mathbf{V}}_{\mathbf{2}}\mathbf{}\mathbf{=}\mathbf{}\frac{{\mathbf{V}}_{\mathbf{1}}{\mathbf{n}}_{\mathbf{2}}}{{\mathbf{n}}_{\mathbf{1}}}$

Consider the following chemical equation.

2NO_{2}(*g*) → N_{2}O_{4}(*g*)

If 25.0 mL NO_{2} gas is completely converted to N_{2}O_{4} gas under the same conditions, what volume will the N_{2}O_{4} occupy?

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Our tutors have indicated that to solve this problem you will need to apply the The Ideal Gas Law Derivations concept. You can view video lessons to learn The Ideal Gas Law Derivations. Or if you need more The Ideal Gas Law Derivations practice, you can also practice The Ideal Gas Law Derivations practice problems.

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Our tutors rated the difficulty of*Consider the following chemical equation.2NO2(g) → N2O4(g)If...*as medium difficulty.

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Based on our data, we think this problem is relevant for Professor Davis' class at UCF.

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Our data indicates that this problem or a close variation was asked in Chemistry: An Atoms First Approach - Zumdahl Atoms 1st 2nd Edition. You can also practice Chemistry: An Atoms First Approach - Zumdahl Atoms 1st 2nd Edition practice problems.