The rate law for the reaction Sucrose + Water $\xrightarrow{{[{H^ + }]}}$ Glucose + Fructose is given by
The rate law for the reaction Sucrose + Water $\xrightarrow{{[{H^ + }]}}$ Glucose + Fructose is given by
- A
Rate $ = K$ [sucrose] [water]
- B
Rate $ = K$ [sucrose] [water]$^0$
- C
Rate $ = K$ [sucrose]$^0$[water]
- D
Rate $ = K$ [sucrose]$^{1/2}$ [water]$^{1/2}$
Similar Questions
For a reaction $A \to$ Products, a plot of $log\,t_{1/2}$ versus $log\,a_0$ is shown in the figure. If the initial concentration of $A$ is represented by $a_0,$ the order of the reaction is
For a reaction $A \to$ Products, a plot of $log\,t_{1/2}$ versus $log\,a_0$ is shown in the figure. If the initial concentration of $A$ is represented by $a_0,$ the order of the reaction is
- [AIEEE 2012]
For the reaction taking place on water, the order of reaction is
${{H}_{2}}+C{{l}_{2}}\xrightarrow{\text{Sunlight}}2HCl$
For the reaction taking place on water, the order of reaction is
${{H}_{2}}+C{{l}_{2}}\xrightarrow{\text{Sunlight}}2HCl$
- [AIIMS 2002]
Determine the order of reaction on the basis of following data for the reaction $A + B \to C$
Exp.
$[A]$
$[B]$
Rate of reaction
$1$
$0.1$
$0.1$
$2 \times {10^{ - 3}}\,mol\,{L^{ - 1}}\,{\sec ^{ - 1}}$
$2$
$0.4$
$0.1$
$0.4 \times {10^{ - 2}}\,mol\,{L^{ - 1}}\,{\sec ^{ - 1}}$
$3$
$0.1$
$0.2$
$1.4 \times {10^{ - 2}}\,mol\,{L^{ - 1}}\,{\sec ^{ - 1}}$
Determine the order of reaction on the basis of following data for the reaction $A + B \to C$
| Exp. | $[A]$ | $[B]$ | Rate of reaction |
| $1$ | $0.1$ | $0.1$ | $2 \times {10^{ - 3}}\,mol\,{L^{ - 1}}\,{\sec ^{ - 1}}$ |
| $2$ | $0.4$ | $0.1$ | $0.4 \times {10^{ - 2}}\,mol\,{L^{ - 1}}\,{\sec ^{ - 1}}$ |
| $3$ | $0.1$ | $0.2$ | $1.4 \times {10^{ - 2}}\,mol\,{L^{ - 1}}\,{\sec ^{ - 1}}$ |
Write differential rate expression of following reaction and give its order of reaction :
$2 N _{2} O _{5} \rightarrow 4 NO _{2}( g )+ O _{2}$
$C _{4} H _{9} Cl + OH ^{-} \rightarrow C _{4} H _{9} OH + Cl ^{-}$
Write differential rate expression of following reaction and give its order of reaction :
$2 N _{2} O _{5} \rightarrow 4 NO _{2}( g )+ O _{2}$
$C _{4} H _{9} Cl + OH ^{-} \rightarrow C _{4} H _{9} OH + Cl ^{-}$
Select the correct statement
Select the correct statement