All other factors of importance remaining constant when speed is increased ?
3 All other factors of importance remaining constant when speed increased Perpendicular to relative wind. 4 To put into a forward flight motion an unmanned 'rotary wing' aircraft You have to tilt main rotor plane of rotation ahead. Rotary wing = helicopter. 5 To put in a forward motion an unmanned multi rotor aircraft Speed of rotation of front rotors must be reduced. Rotary wing = helicopter. 6 To yaw to left or to right an unmanned multi rotor aircraft Engines located on same axis must turn faster. Rotary wing = helicopter. 7 To generate a roll to left on an unmanned multi rotor aircraft Engines located on left must be reduced. Rotary wing = helicopter. 8 To generate a roll to right on an unmanned multi rotor aircraft Engines located on right must be reduced. Rotary wing = helicopter. 9 In hovering flight with an unmanned multi rotor aircraft All engines must spin at same speed. Rotary wing = helicopter. 10 For an unmanned multi rotor aircraft flight stability Provided reverting direction rotation of propellers. Rotary wing = helicopter. 11 As a multi rotor or a 'rotary wing' unmanned aircraft accelerates its attitude becomes Provided reverting direction rotation of propellers. Rotary wing = helicopter. 12 The movement of an unmanned aircraft about its lateral axis known as Provided reverting direction rotation of propellers. Rotary wing = helicopter. 13 The movement of an unmanned aircraft about its normal vertical axis known as Provided reverting direction rotation of propellers. Rotary wing = helicopter. 14 Rolling the rotation of aircraft about its Provided reverting direction rotation of propellers. Rotary wing = helicopter. 15 For a rotary wing aircraft helicopter tail rotor has following function To control rotation of airframe on yaw axis. Rotary wing = helicopter. 16 For an unmanned aircraft manoeuvrability Usually depends on its payload distribution. Too much stability will affect manoeuvrability if positioning of a camera or any load carried not correctly done manoeuvrability will be affected. 17 When lateral distance limitations do not apply no pilot shall operate a small remotely piloted aircraft at a ground speed of more than There no restriction on speed this level of operations. Too much stability will affect manoeuvrability if positioning of a camera or any load carried not correctly done manoeuvrability will be affected. 18 The risk of losing visual line of sight of your unmanned aircraft increased when you are operating There no restriction on speed this level of operations. Too much stability will affect manoeuvrability if positioning of a camera or any load carried not correctly done manoeuvrability will be affected. 19 No pilot shall transfer control of an rpa from one control station to another control station in flight unless There a procedure in place to mitigate risk of loss of control. Too much stability will affect manoeuvrability if positioning of a camera or any load carried not correctly done manoeuvrability will be affected. 20 The aim of a lost link procedure when operating an unmanned aircraft to Ensure that flight path remains predictable does not pose a risk to other airspace users people on ground. Too much stability will affect manoeuvrability if positioning of a camera or any load carried not correctly done manoeuvrability will be affected. Exclusive rights: Content under private and protected license, reproduction prohibited and prosecuted.
