Your source talks about the consumption once it is off the ground. My understanding is that taking off requires more energy than maintaining height and speed like it works for literally every other vehicle.
What does flying 300 miles look like in terms of fuel consumption
Of course, takeoff and climb are typically at full power but to reach cruising altitudes for a single engine airplane doesn’t take very long. It’s a similar concept to a car on a highway onramp, except that airplanes actually get more efficient at higher altitudes.
It factors into overall consumption but it doesn’t really blow the whole equation for efficiency. Pilots in training do takeoffs and landings on repeat for hours at a stretch between refueling.
Source for that claim please?
https://www.aopa.org/news-and-media/all-news/2015/december/14/indy-car-speed-with-prius-fuel-consumption
Your source talks about the consumption once it is off the ground. My understanding is that taking off requires more energy than maintaining height and speed like it works for literally every other vehicle.
What does flying 300 miles look like in terms of fuel consumption
Of course, takeoff and climb are typically at full power but to reach cruising altitudes for a single engine airplane doesn’t take very long. It’s a similar concept to a car on a highway onramp, except that airplanes actually get more efficient at higher altitudes.
It factors into overall consumption but it doesn’t really blow the whole equation for efficiency. Pilots in training do takeoffs and landings on repeat for hours at a stretch between refueling.