As we increase the temperature reaction rate is increasing. At [tex]\rm \bold {3^oC}[/tex] the reaction rate is 36.1 mg/L/sec, which increased to 352.1 mg/L/sec at [tex]\rm \bold {65^oC}[/tex].
Reaction Rate:
It means how fast the reactants convert to products in the reaction. It is measured in mg/L/sec.
As given here,
[tex]\texttt{Reaction rate} = \frac{ ( \texttt{Mass of Tablet} )/(\texttt{volume of water} )}{\texttt{Reaction time}}[/tex]
1.Reaction at [tex]\rm \bold {3^oC}[/tex]
[tex]\rm \bold {\texttt{Reaction rate} = \frac{ ( \texttt{1000} )/(\texttt{0.2 L } )}{\texttt{138.5 sec} } = 36.1 mg /L /sec}[/tex]
2. Reaction at [tex]\rm \bold {24^oC}[/tex]
[tex]\rm \bold {\texttt{Reaction rate} = \frac{ ( \texttt{1000} )/(\texttt{0.2 L } )}{\texttt{ 34.2 sec} } = 146.2 mg /L /sec}[/tex]
3. Reaction at [tex]\rm \bold {40^oC}[/tex]
[tex]\rm \bold {\texttt{Reaction rate} = \frac{ ( \texttt{1000} )/(\texttt{0.2 L } )}{\texttt{ 26.3 sec} } = 190.1 mg /L /sec}[/tex]
4.Reaction at [tex]\rm \bold {65^oC}[/tex]
[tex]\rm \bold {\texttt{Reaction rate} = \frac{ ( \texttt{1000} )/(\texttt{0.2 L } )}{\texttt{ 14.2sec} } = 352.1 mg /L /sec}[/tex]
Hence, we can calculate that as we increase the temperature reaction rate is increasing.
To know more about rate of reaction, refer to the link:
https://brainly.com/question/3334857
