For the reaction$${{N}_{2}}{{O}_{5}}(g)\xrightarrow{{}}2N{{O}_{2}}(g)+1/2\,{{O}_{2}}(g)$$ the value of rate of disappearance of $${{N}_{2}}{{O}_{5}}$$ is given as $$6.25\times {{10}^{-3}}mol\,{{L}^{-1}}{{s}^{-1}}$$. The rate of formation of $$N{{O}_{2}}$$ and $${{O}_{2}}$$ is given respectively as:

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TuteeHUB · Accepted Answer

$$6.25\times {{10}^{-3}}mol\text{ }{{L}^{-1}}{{s}^{-1}}$$ and $$3.125\times {{10}^{-3}}mol\text{ }{{L}^{-1}}{{s}^{-1}}$$

TuteeHUB · Answer

$$6.25\times {{10}^{-3}}mol\text{ }{{L}^{-1}}{{s}^{-1}}$$ and $$6.25\times {{10}^{-3}}mol\text{ }{{L}^{-1}}{{s}^{-1}}$$

TuteeHUB · Answer

$$1.25\times {{10}^{-2}}mol\text{ }{{L}^{-1}}{{s}^{-1}}$$ and $$3.125\times {{10}^{-3}}mol\text{ }{{L}^{-1}}{{s}^{-1}}$$

TuteeHUB · Answer

$$1.125\times {{10}^{-2}}mol\text{ }{{L}^{-1}}{{s}^{-1}}$$and $$6.25\times {{10}^{-3}}mol\text{ }{{L}^{-1}}{{s}^{-1}}$$

1.	For the reaction\[{{N}_{2}}{{O}_{5}}(g)\xrightarrow{{}}2N{{O}_{2}}(g)+1/2\,{{O}_{2}}(g)\] the value of rate of disappearance of \[{{N}_{2}}{{O}_{5}}\] is given as \[6.25\times {{10}^{-3}}mol\,{{L}^{-1}}{{s}^{-1}}\]. The rate of formation of \[N{{O}_{2}}\] and \[{{O}_{2}}\] is given respectively as:
A.	\[6.25\times {{10}^{-3}}mol\text{ }{{L}^{-1}}{{s}^{-1}}\] and \[6.25\times {{10}^{-3}}mol\text{ }{{L}^{-1}}{{s}^{-1}}\]
B.	\[1.25\times {{10}^{-2}}mol\text{ }{{L}^{-1}}{{s}^{-1}}\] and \[3.125\times {{10}^{-3}}mol\text{ }{{L}^{-1}}{{s}^{-1}}\]
C.	\[6.25\times {{10}^{-3}}mol\text{ }{{L}^{-1}}{{s}^{-1}}\] and \[3.125\times {{10}^{-3}}mol\text{ }{{L}^{-1}}{{s}^{-1}}\]
D.	\[1.125\times {{10}^{-2}}mol\text{ }{{L}^{-1}}{{s}^{-1}}\]and \[6.25\times {{10}^{-3}}mol\text{ }{{L}^{-1}}{{s}^{-1}}\]
Answer» C. \[6.25\times {{10}^{-3}}mol\text{ }{{L}^{-1}}{{s}^{-1}}\] and \[3.125\times {{10}^{-3}}mol\text{ }{{L}^{-1}}{{s}^{-1}}\]

For the reaction\[{{N}_{2}}{{O}_{5}}(g)\xrightarrow{{}}2N{{O}_{2}}(g)+1/2\,{{O}_{2}}(g)\] the value of rate of disappearance of \[{{N}_{2}}{{O}_{5}}\] is given as \[6.25\times {{10}^{-3}}mol\,{{L}^{-1}}{{s}^{-1}}\]. The rate of formation of \[N{{O}_{2}}\] and \[{{O}_{2}}\] is given respectively as:

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