The rotor blades tilt as they rotate, giving lift. The entire hub can be tilted for direction of flight.
A helicopter can only fly in an atmosphere, where there is something for the rotors to push against. There's no atmosphere on the moon, so a helicopter can't fly there.
time for an helicopter to takeoff varies on types and model of the helicopter it self. this is because every helicopter or aircraft have their own check list provided by the manufacturer or operator depending on operation. this check list is for the pilot to go through during start up, taxing, take off, approaching and landings. again, time for each machine to take off varies.
A helicopter can only fly in an atmosphere, where there is something for the rotors to push against. There's no atmosphere on the moon, so a helicopter can't fly there.
i am not completely sure.i think its yes.
So aircraft could land and take off in confined spaces and off small ships.
Mainly the problem of landing and take-off in small spaces
Take the paper clip off and make it smaller.
Pushing Air downwards to fly. Rapidly spinning long, thin blades push air downwards to lift the helicopter up
helicopter
The freighter people take 6 of them from the island to the freighter in a helicopter, and they somehow get back to society from there.
So far, there are no practical human powered helicopters.
The rotor lifts it straight up, that is the whole point of having a rotor