As altitude increases, the density of the air decreases, resulting in a decrease in drag on an object moving through the air. This is because there are fewer air molecules to create resistance against the object's motion.
Total drag initially decreases as airspeed increases from stall to a certain point, as the airplane moves into its most aerodynamically efficient speed range. Beyond that point (Vne), total drag increases due to the combined effects of parasite drag and induced drag rising with airspeed, leading to a significant increase in total drag.
The increase in temperature with an increase in altitude is called "temperature inversion." In the troposphere, temperature typically decreases with altitude, but during a temperature inversion, a layer of warmer air traps cooler air near the surface, leading to an increase in temperature with height. This phenomenon can significantly impact weather patterns and air quality.
1,700-foot decrease.
at altitude amount of red blood cells increases . [fatima]
it goes throuh space
If performed correctly, your altitude should increase.
If performed correctly, your altitude should increase.
When thrust is greater than drag, the aircraft will accelerate and increase its speed. This will lead to a climb in altitude or a change in direction due to the increased force pushing the aircraft forward.
If performed correctly, your altitude should increase.
If performed correctly, your altitude should increase.
If performed correctly, your altitude should increase.
It will stall and begin to lose altitude.
The temperature decreases
The number of RBC will increase
As you increase in altitude, the density of air molecules decreases. This is because the air pressure decreases with increasing altitude, leading to a lower concentration of air molecules in a given volume of space.
There is less drag at altitude than at sea level. The air is thinner at altitude.
No, it decreases.