Answer : The reaction rate at [tex]3^oC,24^oC,40^oC\text{ and }65^oC[/tex] are [tex]36mg/L/sec,142mg/L/sec,190mg/L/sec\text{ and }352mg/L/sec[/tex]
Solution : Given,
Mass of tablet = 1000 mg
Volume of water = 0.200 L
The given formula will be,
[tex]\text{Reaction rate}=\frac{\text{Mass of tablet}/\text{Volume of water}}{\text{Reaction time}}[/tex]
Now we have to calculate the reaction rate at different temperatures and reaction time.
[tex]\text{Reaction rate at }3^oC=\frac{1000mg/0.200L}{138.5sec}=\frac{5000mg/L}{138.5sec}=36mg/L/sec[/tex]
[tex]\text{Reaction rate at }24^oC=\frac{1000mg/0.200L}{34.2sec}=\frac{5000mg/L}{34.2sec}=142mg/L/sec[/tex]
[tex]\text{Reaction rate at }40^oC=\frac{1000mg/0.200L}{26.3sec}=\frac{5000mg/L}{26.3sec}=190mg/L/sec[/tex]
[tex]\text{Reaction rate at }65^oC=\frac{1000mg/0.200L}{14.2sec}=\frac{5000mg/L}{14.2sec}=352mg/L/sec[/tex]
Therefore, the reaction rate at [tex]3^oC,24^oC,40^oC\text{ and }65^oC[/tex] are [tex]36mg/L/sec,142mg/L/sec,190mg/L/sec\text{ and }352mg/L/sec[/tex]
Answer:
36, 146, 190, 352
Explanation:
That is the correct answer on edg
