To find the average rate of change in the dolphin's position, we need to determine the total change in its position and divide it by the total time it took.
The total change in the dolphin's position is from 3.5 meters above the surface to 10 meters below the surface, so it can be calculated as 3.5 + 10 = 13.5 meters.
The total time it took for this change is given as 12.5 seconds.
Now we can calculate the average rate of change by dividing the total change in position by the total time:
Average rate of change = Total change in position / Total time
= 13.5 meters / 12.5 seconds
≈ 1.08 meters per second
Therefore, the average rate of change in the dolphin's position is approximately 1.08 meters per second.
a dolphin jumped above the surface of the after in reached an attitude of 3.5 meters above the surface of the water and then dove 10 meters below the surface of the water it went from the highest point above the water of its lowest depth in 12.5 seconds interpret the quotient to describes the average rate of change in the dolphins positron give your answer to the nearest hundredth
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