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− | == Core Features ==
| + | = Core Features = |
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| *Independent cyclic, collective, throttle and anti-torque controls | | *Independent cyclic, collective, throttle and anti-torque controls |
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| *Fully functioning dual controls | | *Fully functioning dual controls |
| *Access control system: owner only, guest or registered pilots | | *Access control system: owner only, guest or registered pilots |
| + | *Retreating blade stall (SA-FE 1.3.1 and later) |
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− | == Helicopter Flight Characteristics ==
| + | See the [[SL Helicopter Flying Handbook]] for more detailed information on flying helicopters with the Shergood Flight System. |
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− | === TORQUE ===
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− | Torque is produced by the main rotor whenever the helicopter is under power. Since the main rotor turns counter-clockwise when viewed from above, the body of the helicopter has a tenancy to want to turn clockwise (to the right) the more power you use. As a result, the pilot must apply right pedal to compensate. This is particularly evident when pulling collective to lift into a hover which requires the most amount of power. Conversely, right pedal must be applied when reducing power/collective.
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− | === GROUND EFFECT ===
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− | Proximity to the ground (land, water, or over a prim) reduces the amount of power needed to hover. The effect increased the closer your are to the surface, and diminishes as you increase height over the surface. Hovering near a surface is referred to as an IGE (In Ground Effect) hover, and hovering away from a surface is referred to as an OGE (Out of Ground Effect) hover. A helicopter can maintain an IGE hover at higher weights and altitudes than it can an OGE hover. At some loadings and altitudes, you may not be able to maintain an OGE hover at all.
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− | === TRANSLATIONAL LIFT ===
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− | When a helicopter is in a hover or at a low speed, airflow through the disk is at a right angle to the rotor plane, and the rotors must provide all induced airflow through the rotors. As airspeed is increased, some of the induced flow through the rotors begins to be provided by the forward speed of the helicopter. The net result of this is increased lift at no additional cost in power. The largest increase occurs at around 10 to 20 mph and is referred to as ETL (Effective Translational Lift). As an helicopter passes through ETL, it requires significantly less power to maintain altitude, and more power is available for climbs. This is also the reason that less power is required in cruise flight than for hovering. It is also part of the reason that a normal takeoff involves a short ground run to accelerate past ETL before climbing out.
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− | === TRANSLATING TENDENCY ===
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− | The primary purpose of tail rotor is to counteract torque from the main rotors. However, a side effect of this is a slight sidewards force that would push the helicopter to the right if left uncorrected. This is referred to as "translating tendency". To compensate for this, the controls on the helicopter have been rigged so that there is a slight left tilt of the main rotor when the cyclic controls are centered. This left force from the main rotor balances the right force from the tail rotor. A side effect of this is that the left skid will hang slightly lower then the right one in a hover.
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− | === VORTEX RING STATE ===
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− | Vortex ring state, sometimes called "settling with power", is a dangerous condition that can occur when a helicopter is descending into its own downwash. Essentially a vortex ring system engulfs the rotors and they fail to produce lift. Once in vortex ring state, increases in power in an attempt to slow the descent will only make the condition worse, thus actually increasing the descent rate. If the condition is allowed to develop too far, or you are too close to the ground, it may be impossible to recover. You are at danger for vortex ring state when all three of the the following conditions hold:
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− | # Descent rate greater than 300 feet/minute
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− | # Airspeed less than 30 mph
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− | # More than 50% power
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− | If you have alerts turned on, your helicopter will alert you when you are in vortex ring state. To recover from vortex ring state, you should lower the collective and apply forward cyclic to regain airspeed. However, the best practice is to avoid it in the first place.
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