164254 Correct graph for zero order reaction :

1

2

3

4 None of these

164255 The rate of gaseous reaction is given by the expression \(K[A]^2[B]^3\). The volume of reaction vessel is suddenly reduced to one half of the initial volume. The reaction rate relative to the original rate will be :

164256 The half-life of a first order chemical reaction is 6.93 minutes. The time required for the completion of \(99 \%\) of the chemical reaction will be :

164257 Decomposition of ozone to oxygen, \(2 \mathrm{O}_3 \rightarrow 3 \mathrm{O}_2\), follows the mechanism :
\( \mathrm{O}_3 \rightleftharpoons \mathrm{O}_2+\mathrm{O} \)
\( \mathrm{O}_3+\mathrm{O} \stackrel{\mathrm{k}_1}{\longrightarrow} 2 \mathrm{O}_2 \)
(Fast Step)
(Slow step)
The rate equation of the reaction is :

164254 Correct graph for zero order reaction :

1

2

3

4 None of these

164255 The rate of gaseous reaction is given by the expression \(K[A]^2[B]^3\). The volume of reaction vessel is suddenly reduced to one half of the initial volume. The reaction rate relative to the original rate will be :

164256 The half-life of a first order chemical reaction is 6.93 minutes. The time required for the completion of \(99 \%\) of the chemical reaction will be :

164257 Decomposition of ozone to oxygen, \(2 \mathrm{O}_3 \rightarrow 3 \mathrm{O}_2\), follows the mechanism :
\( \mathrm{O}_3 \rightleftharpoons \mathrm{O}_2+\mathrm{O} \)
\( \mathrm{O}_3+\mathrm{O} \stackrel{\mathrm{k}_1}{\longrightarrow} 2 \mathrm{O}_2 \)
(Fast Step)
(Slow step)
The rate equation of the reaction is :

164254 Correct graph for zero order reaction :

1

2

3

4 None of these

164255 The rate of gaseous reaction is given by the expression \(K[A]^2[B]^3\). The volume of reaction vessel is suddenly reduced to one half of the initial volume. The reaction rate relative to the original rate will be :

164256 The half-life of a first order chemical reaction is 6.93 minutes. The time required for the completion of \(99 \%\) of the chemical reaction will be :

164257 Decomposition of ozone to oxygen, \(2 \mathrm{O}_3 \rightarrow 3 \mathrm{O}_2\), follows the mechanism :
\( \mathrm{O}_3 \rightleftharpoons \mathrm{O}_2+\mathrm{O} \)
\( \mathrm{O}_3+\mathrm{O} \stackrel{\mathrm{k}_1}{\longrightarrow} 2 \mathrm{O}_2 \)
(Fast Step)
(Slow step)
The rate equation of the reaction is :

164254 Correct graph for zero order reaction :

1

2

3

4 None of these

164255 The rate of gaseous reaction is given by the expression \(K[A]^2[B]^3\). The volume of reaction vessel is suddenly reduced to one half of the initial volume. The reaction rate relative to the original rate will be :

164256 The half-life of a first order chemical reaction is 6.93 minutes. The time required for the completion of \(99 \%\) of the chemical reaction will be :

164257 Decomposition of ozone to oxygen, \(2 \mathrm{O}_3 \rightarrow 3 \mathrm{O}_2\), follows the mechanism :
\( \mathrm{O}_3 \rightleftharpoons \mathrm{O}_2+\mathrm{O} \)
\( \mathrm{O}_3+\mathrm{O} \stackrel{\mathrm{k}_1}{\longrightarrow} 2 \mathrm{O}_2 \)
(Fast Step)
(Slow step)
The rate equation of the reaction is :