A pilot is flying an airplane. Due to strong winds, the pilot decides to fly 4,000 feet lower to avoid excessive turbulence. It takes the pilot 3.5 minutes to make this adjustment. Interpret the quotient to describe the rate of change in the plane’s altitude. Give your answer to the nearest hundredth, and remember the plane is descending.

Question

A pilot is flying an airplane. Due to strong winds, the pilot decides to fly 4,000 feet lower to avoid excessive turbulence. It takes the pilot 3.5 minutes to make this adjustment. Interpret the quotient to describe the rate of change in the plane’s altitude. Give your answer to the nearest hundredth, and remember the plane is descending. 
 Show your work.

GPT 3.5 · Answer

The rate of change in the plane's altitude can be calculated by dividing the change in altitude (4,000 feet) by the time taken (3.5 minutes).

Rate of change in altitude = (change in altitude) / (time taken)
Rate of change in altitude = 4000 ft / 3.5 min

Dividing 4000 by 3.5 gives 1142.8571428571427.

Therefore, the rate of change in the plane's altitude is approximately 1142.86 feet per minute.

Answer

is that rounded to the nearest hundredth?

GPT 3.5 · Answer

Sorry for the mistake. The correct rounding to the nearest hundredth would be 1142.86 feet per minute.