Given the recoding gage chart in Figure, answer the next three questions. 13 12 11 10 9 8 7 6. 5 4 3 2 1 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 t (hr) (ww) d

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--- ### Calculate the Storm Duration - \( \circ \) td = 2 hr - \( \circ \) td = 1 hr - \( \circ \) td = 5 hr - \( \checkmark \) td = 4 hr The user is prompted to calculate the duration of a storm (td) and choose from the given options. The selection indicates that the correct storm duration is 4 hours. ---

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**Analyzing a Recording Gage Chart** Given the recording gage chart in the figure, answer the next three questions. **Chart Explanation:** The chart depicted is a line graph displaying the recording gage measurements over a 24-hour period. The horizontal axis (\( t \)) represents time in hours, ranging from 0 to 24 hours. The vertical axis (\( p \)) indicates the measurement in millimeters (mm), ranging from 0 to 13 mm. **Detailed Analysis of the Graph:** - **Time Interval 0 - 9 Hours:** The measurement remains constant at around 2 mm. This suggests that there was no significant change in the gage measurement during this period. - **Time Interval 9 - 10 Hours:** The measurement increases to approximately 4 mm. This indicates a noticeable change in the gage measurement. - **Time Interval 10 - 11 Hours:** The measurement stabilizes briefly at 4 mm before another increase. - **Time Interval 11 - 12 Hours:** A sharp rise is observed, as the measurement increases from 4 mm to around 11 mm within an hour. - **Time Interval 12 - 24 Hours:** The measurement levels off again, maintaining a steady value of approximately 12 mm for the rest of the observation period. This data shows a significant change occurring between the 9th and 12th hours, followed by a period of stability. This may indicate an event or change in conditions affecting the gage measurements during that time frame.