It all depends on how much power is in the engines that can enable an airplane to take off at a steeper or shallower angle. Airplanes used for air shows and fighter jets are able to take off at a steep angle. Bush planes can also take off at a steep angle. A heavily loaded Air Bus, on the other hand, needs more clearance to be able to take to the air and thus may take off at a more shallower angle than a typical CF-18 Hornet would!
If the smaller cells' total volume is at least that of the larger cell then the smaller cells have the greater surface area.
No.
A large cone has a greater volume than a small frustum while a small cone has a smaller volume than a large frustum
A greater surface area allows for greater energy transfer.
No. A hunder degrees C spans the same range as 180 degrees F. So a C degree is 1.8 times as large as a F degree.
Planes have large wings, Helicopters have rotors
true
The small blood droplet would have a greater terminal velocity. The smaller droplet has a smaller surface area, thus suffers less air resistance.
In larger populations there is stronger selection against deleterious traits. The smaller the population, the greater the degree of deleterious traits are accepted.
Because their mass is greater than smaller waves, therefore they contain more energy.
For rapid delivery over long distances, air transportation is a logical but more costly choice. Larger products and large quantities of a product are moved by cargo planes while smaller parcels are carried on many types of planes
Not necessarily. Both comets and asteroids vary in sides and to a large degree fall into the same size range.