A bird is flying at an average altitude of 10 meters above the ground. After 3 seconds, it settles on a branch that is 3 meters above the ground. Interpret the quotient to describe the rate of change in the bird's altitude. Give your answer to the nearest hundredth.

To interpret the quotient, we need to calculate the rate of change in the bird's altitude. The bird goes from an altitude of 10 meters to an altitude of 3 meters in 3 seconds.

The rate of change in altitude is calculated by dividing the change in altitude by the change in time.

Change in altitude = Final altitude - Initial altitude = 3 meters - 10 meters = -7 meters (negative because the altitude decreases)

Change in time = 3 seconds

Rate of change in altitude = Change in altitude / Change in time = -7 meters / 3 seconds ≈ -2.33 meters/second

The quotient -2.33 can be interpreted as the bird's altitude decreasing by an average rate of 2.33 meters per second.

A whale is swimming at a current depth of 15 meters below the surface. It swims up toward the surface