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Assume that each tablet's mass was 1,000 mg and you used 0.200 L of water each time. Compute the reaction rate to the nearest whole number using the formula below.

[tex]\[
\text{Reaction Rate} = \frac{\text{mass of tablet} / \text{volume of water}}{\text{reaction time}}
\][/tex]

- 3°C
- Reaction time = 138.5 sec
- Reaction rate = [tex]\(\square\)[/tex] mg/L/sec

- 24°C
- Reaction time = 34.2 sec
- Reaction rate = [tex]\(\square\)[/tex] mg/L/sec

- 40°C
- Reaction time = 26.3 sec
- Reaction rate = [tex]\(\square\)[/tex] mg/L/sec

- 65°C
- Reaction time = 14.2 sec
- Reaction rate = [tex]\(\square\)[/tex] mg/L/sec

Sagot :

GinnyAnswer
Certainly! Let's go through the reaction rate calculations for each temperature step by step.

The formula for calculating the reaction rate is:
[tex]\[ \text{Reaction Rate} = \frac{\text{mass of tablet} / \text{volume of water}}{\text{reaction time}} \][/tex]

Given:
- Mass of each tablet = [tex]\(1000 \text{ mg}\)[/tex]
- Volume of water = [tex]\(0.200 \text{ L}\)[/tex]

First, we need to calculate the value of [tex]\(\frac{\text{mass of tablet}}{\text{volume of water}}\)[/tex]:
[tex]\[ \frac{1000 \text{ mg}}{0.200 \text{ L}} = 5000 \text{ mg/L} \][/tex]

Now, for each temperature, we will use this value to calculate the reaction rate.

### 3°C
Reaction time = 138.5 seconds
[tex]\[ \text{Reaction Rate} = \frac{5000 \text{ mg/L}}{138.5 \text{ sec}} \approx 36.1 \text{ mg/L/sec} \][/tex]

To the nearest whole number:
[tex]\[ \text{Reaction Rate} \approx 36 \text{ mg/L/sec} \][/tex]

### 24°C
Reaction time = 34.2 seconds
[tex]\[ \text{Reaction Rate} = \frac{5000 \text{ mg/L}}{34.2 \text{ sec}} \approx 146.2 \text{ mg/L/sec} \][/tex]

To the nearest whole number:
[tex]\[ \text{Reaction Rate} \approx 146 \text{ mg/L/sec} \][/tex]

### 40°C
Reaction time = 26.3 seconds
[tex]\[ \text{Reaction Rate} = \frac{5000 \text{ mg/L}}{26.3 \text{ sec}} \approx 190.1 \text{ mg/L/sec} \][/tex]

To the nearest whole number:
[tex]\[ \text{Reaction Rate} \approx 190 \text{ mg/L/sec} \][/tex]

### 65°C
Reaction time = 14.2 seconds
[tex]\[ \text{Reaction Rate} = \frac{5000 \text{ mg/L}}{14.2 \text{ sec}} \approx 352.1 \text{ mg/L/sec} \][/tex]

To the nearest whole number:
[tex]\[ \text{Reaction Rate} \approx 352 \text{ mg/L/sec} \][/tex]

Therefore, the reaction rates to the nearest whole number for each temperature are:
[tex]\[ \begin{array}{l} 3^\circ \text{C} \quad \text{Reaction Rate} = 36 \text{ mg/L/sec} \\ 24^\circ \text{C} \quad \text{Reaction Rate} = 146 \text{ mg/L/sec} \\ 40^\circ \text{C} \quad \text{Reaction Rate} = 190 \text{ mg/L/sec} \\ 65^\circ \text{C} \quad \text{Reaction Rate} = 352 \text{ mg/L/sec} \\ \end{array} \][/tex]
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