320347 For a hypothetical first order reaction,\({\mathrm{\mathrm{A}+\mathrm{B}+\mathrm{C} \longrightarrow}}\) Products,
the rate law is expressed as,
Rate \({\rm{ = k}}{[{\rm{A}}]^{\rm{x}}}{[{\rm{B}}]^{\rm{y}}}{[{\rm{C}}]^{\rm{z}}}.\) The value of \({\mathrm{(x+y+z)}}\) is ____ .

320348 If the rate constant for the disintegration of a radiactive nucleus is \(\lambda\). Therefore, the probability \(\mathrm{P}\) of survival of a radiactive nucleus for one mean life is

320349 Which of the following represents the expression for \(\dfrac{4^{\text {th }}}{6}\) life of a first order reaction?

320350 The reaction \({\text{2NO(g) + }}{{\text{O}}_{\text{2}}}{\text{(g)}} \rightleftharpoons {\text{2N}}{{\text{O}}_{\text{2}}}{\text{(g)}}\) is of first order. If volume of reaction vessel is reduced to \({\raise0.5ex\hbox{\(\scriptstyle {\rm{1}}\)}\kern-0.1em/\kern-0.15em\lower0.25ex\hbox{\(\scriptstyle {\rm{3}}\)}}\), the rate of reaction would be

320351 Slope of the graph between rate \((\mathrm{Y}-\) axis \()\) and \([\mathrm{A}](\mathrm{X}\)-axis \()\) for the first order reaction is equal to

320347 For a hypothetical first order reaction,\({\mathrm{\mathrm{A}+\mathrm{B}+\mathrm{C} \longrightarrow}}\) Products,
the rate law is expressed as,
Rate \({\rm{ = k}}{[{\rm{A}}]^{\rm{x}}}{[{\rm{B}}]^{\rm{y}}}{[{\rm{C}}]^{\rm{z}}}.\) The value of \({\mathrm{(x+y+z)}}\) is ____ .

320348 If the rate constant for the disintegration of a radiactive nucleus is \(\lambda\). Therefore, the probability \(\mathrm{P}\) of survival of a radiactive nucleus for one mean life is

320349 Which of the following represents the expression for \(\dfrac{4^{\text {th }}}{6}\) life of a first order reaction?

320350 The reaction \({\text{2NO(g) + }}{{\text{O}}_{\text{2}}}{\text{(g)}} \rightleftharpoons {\text{2N}}{{\text{O}}_{\text{2}}}{\text{(g)}}\) is of first order. If volume of reaction vessel is reduced to \({\raise0.5ex\hbox{\(\scriptstyle {\rm{1}}\)}\kern-0.1em/\kern-0.15em\lower0.25ex\hbox{\(\scriptstyle {\rm{3}}\)}}\), the rate of reaction would be

320351 Slope of the graph between rate \((\mathrm{Y}-\) axis \()\) and \([\mathrm{A}](\mathrm{X}\)-axis \()\) for the first order reaction is equal to

320347 For a hypothetical first order reaction,\({\mathrm{\mathrm{A}+\mathrm{B}+\mathrm{C} \longrightarrow}}\) Products,
the rate law is expressed as,
Rate \({\rm{ = k}}{[{\rm{A}}]^{\rm{x}}}{[{\rm{B}}]^{\rm{y}}}{[{\rm{C}}]^{\rm{z}}}.\) The value of \({\mathrm{(x+y+z)}}\) is ____ .

320348 If the rate constant for the disintegration of a radiactive nucleus is \(\lambda\). Therefore, the probability \(\mathrm{P}\) of survival of a radiactive nucleus for one mean life is

320349 Which of the following represents the expression for \(\dfrac{4^{\text {th }}}{6}\) life of a first order reaction?

320350 The reaction \({\text{2NO(g) + }}{{\text{O}}_{\text{2}}}{\text{(g)}} \rightleftharpoons {\text{2N}}{{\text{O}}_{\text{2}}}{\text{(g)}}\) is of first order. If volume of reaction vessel is reduced to \({\raise0.5ex\hbox{\(\scriptstyle {\rm{1}}\)}\kern-0.1em/\kern-0.15em\lower0.25ex\hbox{\(\scriptstyle {\rm{3}}\)}}\), the rate of reaction would be

320351 Slope of the graph between rate \((\mathrm{Y}-\) axis \()\) and \([\mathrm{A}](\mathrm{X}\)-axis \()\) for the first order reaction is equal to

320347 For a hypothetical first order reaction,\({\mathrm{\mathrm{A}+\mathrm{B}+\mathrm{C} \longrightarrow}}\) Products,
the rate law is expressed as,
Rate \({\rm{ = k}}{[{\rm{A}}]^{\rm{x}}}{[{\rm{B}}]^{\rm{y}}}{[{\rm{C}}]^{\rm{z}}}.\) The value of \({\mathrm{(x+y+z)}}\) is ____ .

320348 If the rate constant for the disintegration of a radiactive nucleus is \(\lambda\). Therefore, the probability \(\mathrm{P}\) of survival of a radiactive nucleus for one mean life is

320349 Which of the following represents the expression for \(\dfrac{4^{\text {th }}}{6}\) life of a first order reaction?

320350 The reaction \({\text{2NO(g) + }}{{\text{O}}_{\text{2}}}{\text{(g)}} \rightleftharpoons {\text{2N}}{{\text{O}}_{\text{2}}}{\text{(g)}}\) is of first order. If volume of reaction vessel is reduced to \({\raise0.5ex\hbox{\(\scriptstyle {\rm{1}}\)}\kern-0.1em/\kern-0.15em\lower0.25ex\hbox{\(\scriptstyle {\rm{3}}\)}}\), the rate of reaction would be

320351 Slope of the graph between rate \((\mathrm{Y}-\) axis \()\) and \([\mathrm{A}](\mathrm{X}\)-axis \()\) for the first order reaction is equal to

320347 For a hypothetical first order reaction,\({\mathrm{\mathrm{A}+\mathrm{B}+\mathrm{C} \longrightarrow}}\) Products,
the rate law is expressed as,
Rate \({\rm{ = k}}{[{\rm{A}}]^{\rm{x}}}{[{\rm{B}}]^{\rm{y}}}{[{\rm{C}}]^{\rm{z}}}.\) The value of \({\mathrm{(x+y+z)}}\) is ____ .

320348 If the rate constant for the disintegration of a radiactive nucleus is \(\lambda\). Therefore, the probability \(\mathrm{P}\) of survival of a radiactive nucleus for one mean life is

320349 Which of the following represents the expression for \(\dfrac{4^{\text {th }}}{6}\) life of a first order reaction?

320350 The reaction \({\text{2NO(g) + }}{{\text{O}}_{\text{2}}}{\text{(g)}} \rightleftharpoons {\text{2N}}{{\text{O}}_{\text{2}}}{\text{(g)}}\) is of first order. If volume of reaction vessel is reduced to \({\raise0.5ex\hbox{\(\scriptstyle {\rm{1}}\)}\kern-0.1em/\kern-0.15em\lower0.25ex\hbox{\(\scriptstyle {\rm{3}}\)}}\), the rate of reaction would be

320351 Slope of the graph between rate \((\mathrm{Y}-\) axis \()\) and \([\mathrm{A}](\mathrm{X}\)-axis \()\) for the first order reaction is equal to