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Which lines carry the most weight?

The rear lines (C or D-lines) The middle lines (B or B and C-lines) The lines on the front (A-lines or A and B-lines) The brake lines.

Most of the weight is carried by the lines attached to the front of the canopy.

What are the minimum requirements for a safe take-off?

The possibility to safely abort the launch. A light wind from the front. Clear of cables in a 500m radius. A, B en C are correct.

A straight headwind is not necessary, you can take off in a slight crosswind. The runway should be clear of cables and other obstacles, but a 500m radius is not necessary. It is however essential to be able to abort your launch, for example when you notice a knot in the lines.

'Big ears' are a descent technique and serve to increase your descent rate. Additionally, in which situation is pulling 'big ears' a good idea?

When trying to fly into a strong headwind. When flying in turbulent conditions. When turning in a small thermal. All of the above are correct.

Pulling big ears reduces the wing area and therefore increases the wing load. This stabilizes the canopy somewhat. It also increases the flying speed but in most cases this is counteracted by the extra drag the ears create.

Despite a good flare, you have a lot of speed just before touching down, because you landed with the wind in your back. What do you do?

You land on your feet and try to run it out during landing. You pull in your legs and land on your bum - the foam protector or airbag in your harness will absorb the blow. You stretch out your legs and land on your back. This ensures the airbag gives maximum protection. On touch down you drop forward and catch the fall with your arms.

A is the safest option if you're not familiar with a PLF (parachute landing fall) which needs practise. Your legs are much stronger than your back or arms.

Although on a flat grassy surface, you could get away with answer B, it can be very dangerous when stones, holes or other objects are hidden in the grass.

Using the protection in your harness as a landing option is not safe - would you park your car against a wall at full speed because the airbags will catch the blow?

It's sunny on launch and you're ready to take off, but the wind has been from the back for quite a while. What do you do?

Stay there and be ready to go. Parawaiting is part of the sport and it's not uncomfortable in the sun. Hold on to the brakes and risers but sit down on your harness. The reserve parachute under your seat is a comfortable seat. When the wind turns you're well rested and ready to go. You disconnect the wing from the harness and pack up the glider. The vulnerable material suffers from the sun. As soon as the wind turns you unpack and get ready again. You bundle up the glider in a 'field pack', take off the harness and lay your equipment in the shade. That way, the materials aren't damaged, you can rest a bit and you will be ready quickly when the wind turns.

Gliders suffer the most from direct sunlight. The airtight coating is damaged by the UV-radiation. Don't leave your glider out in the sun unnecessarily.
Additionally, sitting on the reserve parachute may damage it without you noticing, so it might fail if you ever need it. Never sit on your harness.

You just landed. What do you do?

You bundle up the glider in a 'field pack' and take the shortest way to the designated packing area. You bundle up the glider in a 'field pack' and take the shortest way to the edge of the field and from there to the designated packing area. You report to the instructor. When he or she says it's ok, you bundle up the glider in a 'field pack' and walk to the designated packing area. You pack up your vulnarable glider on the spot and then you report to the instructor.

Directly after landing, look around for other gliders that are about to land and clear the landing area as quickly as possible, without disturbing others.

Why are the cell openings slightly pointed down?

To increase the aerodynamic properties of the paraglider. Because the airflow is coming from the front and below at an angle. To enable dirt or dust to fall out easily. To achieve a venturi effect.

The cell openings are positioned where the air flow hits the profile of the airfoil.

A paraglider glides down through the air. But at what speed?

The forward speed is over 50 km/h and the sink rate around 10 km/h. The forward speed is over 50 km/h and the sink rate around 1 m/s. The forward speed is around 35-40 km/h and the sink rate around 1 m/s. The forward speed is around 35-40 km/h and the sink rate around 0,1 m/s.

These are all speeds relative to the air!

You're on a straight course and you don't need to change direction any time soon. What do you do with the brake handles?

Let go, because holding them all the time is unnecessary and tiring. Hold them at all times, because the wing will shoot in all directions if you let go. Hold the handles lightly and relax your arms. This ensures a bit of pressure on the brake lines. Hold the handles and pull them down quite a bit. The wing will fly slower and more stable that way.

Modern paragliders fly best without any brake applied - at the so-called trim speed.

But by applying a little bit of pressure, you take out the slack in the brake lines. You feel better what the wing is doing and you can react quickly and subtly to keep the wing straight overhead. This is called active flying.

If you have some more experience it doesn't hurt to let go of the brake handles and relax, but only if it's safe to do so.

Which data do you need to calculate the wing load?

The weight of the wing, the flat surface of the wing and the weight of the harness. The take-off weight and the flat surface of the wing. The span, the flat surface and the weight of the wing. The aspect ratio and the take-off weight.

The wing load is defined as the weight on the wing per square metre. Therefore you need the total take-off weight and the flat surface of the wing to calculate it. For example, a 25m² glider flown by a pilot with a TOW of 100kg has a wing load of 4kg/m².

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