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can expect the most rapid climb rate in the core of the thermal.

Once again, this technique does demand some skill.

To avoid losing sight of the machine be sure to leave the thermal

in good time. Remember that a glider is always easier to see

under a cloud than against a clear blue sky. If you have to lose

height in a hurry, do bear the following in mind:

The structural strength of the EasyGlider PRO is very great for

this class of model, but it is not infinite. If you attempt to destroy

the model forcibly, please don’t expect any sympathy or

compensation from us.

Flying at the slope

Ridge soaring is an extremely attractive form of model flying.

Soaring for hours on end in slope lift, without needing any outside

aid for launching, must be one of the finest of modelling

experiences. But to “milk” a thermal to the limits of vision, bring

it down again in a continuous series of aerobatic manoeuvres,

and then repeat the whole show - that must surely be the last

word in model flying.

But take care - there are dangers for your model lurking at the

slope. Firstly, in most cases landing is much more difficult than

at a flat field site. It is usually necessary to land in the lee of the

hill where the air is turbulent; this calls for concentration and a

high-speed approach with last-minute airbrake extension. A

landing on the slope face, i.e. right in the slope lift, is even more

difficult. Here the trick is to approach slightly downwind, up the

slope, and flare at exactly the right moment, just before touch-

down.

Aero-towing

An ideal combination for learning to aero-tow, and for actual

aero-towing, is a Mentor and an EasyGlider PRO. If you wish to

take-off from grass, you will need a fairly powerful motor in the

Magister, e.g. a brushless external rotor type (generally known

as an “outrunner”) with around 300 Watts of power.

For the tow you require a 20 m length of braided cable of 1 to 1.5

mm Ø. Tie a loop of 0.5 mm Ø nylon line (weak link) at the end,

and connect it to the aero-tow release (# 72 3470) fitted to the

EasyGlider PRO.

Fig. 27

Check that the towline is resting on top of the Mentor’s tailplane.

The tug now rolls forward until the towline is taut, and only then

should the tug’s pilot apply full-throttle. Both aeroplanes

accelerate: the tug stays on the ground initially, while the glider

lifts off, but the glider pilot keeps his model flying low above the

ground, directly in the wake of the tug; the tug can now lift off

safely. The two models should be kept climbing steadily, even

through turns. Avoid flying directly over your heads during the first

few attempts at aero-towing, as it is difficult to detect the models’

attitudes from this angle. To drop the tow cease climbing, bring

the two aeroplanes to straight and level flight, then close the

throttle on the tug and operate the tow-release on the glider.

Electric flying

With the electric version - the EasyGlider Electric - you have the

optimum level of autonomy and independence. You can fly from

a flat field and carry out about four climbs to a sensible gliding

height from a single battery charge. At the slope you can also

keep the electric power system as a “lifebelt”, i.e. you only use

the motor to “keep afloat”, and avoid landing out, i.e. landing at

the bottom of the slope when the lift fails.

Flight performance

What is meant by a glider’s performance?

The two most important parameters are sinking speed and glide

angle. Sinking speed is a measure of the vertical height lost per

second relative to the surrounding air. The sinking speed is

primarily determined by the wing loading (weight relative to wing

area). Here the EasyGlider PRO offers a really excellent

performance - much better than conventional models - as its

wing loading is so low (only around 17 g / dm²). This means that

only slight thermal assistance is necessary (warm air rising) to

cause the model to gain height. Wing loading is also the main

factor in determining the model’s airspeed - the lower the loading,

the slower the model. Low airspeed means that the model can

be turned extremely tightly, and this is also advantageous when

thermal flying, as areas of lift are usually very small when close

to the ground.

The glider’s low airspeed also benefits you considerably if you

are a beginner, as you have more time to think, and the model is

more likely to “excuse” a mistake at the controls.

However, there’s always a down-side:

The other important parameter in glider performance is the glide

angle. This is stated as a ratio, i.e. from a particular altitude the

model flies such and such a distance. The glide angle increases

as wing loading rises, and at the same time - of course - the

model’s airspeed increases. This becomes necessary if you

wish to fly in relatively strong winds, and when you need “energy

retention” for flying aerobatics.

For thermal flying you need a good glide angle too, as this is the

key to flying across areas of “sink” (the opposite of a thermal)

quickly, so that you can seek out another thermal. To increase

the glide angle you need to increase the wing loading, and this

is done by increasing the glider’s weight, i.e. by installing ballast

in the model. This should be positioned in the wing if possible.

In the EasyGlider PRO there is an ideal location: it is the GRP

tube which forms the wing joiner. The internal diameter of this

tube is 7.8 mm. Normally a ballast rod of this size would be

difficult to find, and expensive to purchase. However, by chance

the diameter of standard M8 studding (threaded rod) is just the

right size. This material has a diameter of 7.7 mm, and you will

be able to buy it at low cost in any DIY store. You may find that

only half a full length is sufficient. In this case you must ensure

that the rod cannot slide from side to side, e.g. by fitting lengths

of balsa dowel in both ends of the wing joiner, so that the weight

is held in the centre.

Safety

Safety is the First Commandment when flying any model aircraft.

Third party insurance should be considered a basic essential. If

you join a model club suitable cover will usually be available

through the organisation. It is your personal responsibility to

ensure that your insurance is adequate.

Make it your job to keep your models and your radio control

system in perfect order at all times. Check the correct charging

procedure for the batteries used in your RC set. Make use of all

sensible safety measures and precautions which are advised

for your system. An excellent source of practical accessories is

the MULTIPLEX main catalogue, as our products are designed

and manufactured exclusively by practising modellers for other

practising modellers.

Always fly with a responsible attitude. You may think that flying

low over other people’s heads is proof of your piloting skill; others

know better. The real expert does not need to prove himself in

such childish ways. Let other pilots know that this is what you

think too. Always fly in such a way that you do not endanger

yourself or others. Bear in mind that even the best RC system in

the world is subject to outside interference. No matter how many

years of accident-free flying you have under your belt, you have

no idea what will happen in the next minute.

The fascination of it all

Model flying is, and always has been, a fascinating hobby, and a

thoroughly enjoyable way of spending your leisure hours. Take

your time to get to know your new EasyGlider PRO really well.

Plan to spend many hours in the open air, where you will learn to