Editing Paragliding (section)

==== Reverse launch ====
In higher winds, a reverse launch is used, with the pilot facing the wing to bring it up into a flying position, then turning around under the wing and running to complete the launch.

Reverse launches have a number of advantages over a forward launch. It is more straightforward to inspect the wing and check if the lines are free as it leaves the ground. In the presence of wind, the pilot can be tugged toward the wing, and facing the wing makes it easier to resist this force and safer in case the pilot slips (as opposed to being dragged backwards). However, the movement pattern is more complex than forward launch, and the pilot has to hold the brakes in a correct way and turn to the correct side so he does not tangle the lines. These launches are normally attempted with a reasonable wind speed, making the ground speed required to pressurise the wing much lower.

[[File:Paraglider launch Mam Tor.webm|thumbtime=3|thumb|left|Paraglider reverse launch, [[Mam Tor]], England]]

The launch is initiated by the hands raising the leading edge with the As. As it rises the wing is controlled more by centring the feet than by use of the brakes or Cs. With mid level wings (EN C and D) the wing may try to "overshoot" the pilot as it nears the top. This is checked with  Cs or brakes. The wing becomes increasingly sensitive to the Cs and brakes as its internal air pressure rises. This is usually felt from increasing lift of the wing applying harness pressure to the [[seat of the pants]]. That pressure indicates that the wing is likely to remain stable when the pilot pirouettes to face the wind.

The next step in the launch is to bring the wing into the lift zone. There are two techniques for accomplishing this depending on wind conditions. In light wind this is usually done after turning to the front, steering with the feet towards the low wing tip, and applying light brakes in a natural sense to keep the wing horizontal. In stronger wind conditions it is often found to be easier to remain facing downwind while moving slowly and steadily backwards into the wind.

Knees bent to load the wing, foot adjustments to remain central and minimum use of Cs or Brakes to keep the wing horizontal. Pirouette when the feet are close to lifting. This option has two distinct advantages. a) The pilot can see the wing centre marker (an aid to centring the feet) and, if necessary, b) the pilot can move briskly towards the wing to assist with an emergency deflation.

With either method it is essential to check "traffic" across the launch face before committing to flight.

The A's and C's technique described above is well suited to low-hours pilots, on standard wings, in wind strengths up to 10 knots. It is particularly recommended for kiting. As wind speed increases (above ten knots), especially on steep ridges, the use of the C's introduces the potential to be lifted before the wing is overhead due to the increased angle of attack. That type of premature lift often results in the pilot's weight swinging downwind rapidly, resulting in a frontal tuck (due to excess A line loads). In that situation the pilot commonly drops vertically and injuries are not uncommon. In ridge soaring situations above ten knots it is almost always better to lift the wing with A's only and use the brakes to  stop any potential overshoot. The brakes do not usually increase the angle of attack as much C's. As wind strength increases it becomes more important than ever for the pilot to keep the wing loaded by bending the knees and pushing the shoulders forward. Most pilots will find that when their hands are vertically under the brake line pulleys they are able reduce trailing edge drag to the absolute minimum. That is not so easy for most, when the arms are thrust rearwards.