While I was still picking up some work on a privately owned Super D out of Cornwall, the loss of our ship did mean I now had some extra time for the biplane.
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| Alone in the hangar. (Author's Collection) |
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| Getting ready to go. (Author's Collection) |
I've already participated in the ritual of checking the weather. Today's flight will be a short one so a simple check of the written report sufficed. The prognosticators have peered into their crystal ball and come up empty - no weather, light winds and clear skies save for the sparse scattering of cotton ball cumulus floating overhead.
A few minutes later, I'm climbing over the cockpit rim and lowering myself into the fibreglass seat. I strap in, take my gloves off the narrow glare shield, slip them on and reach out to pick my helmet up off of the cowling, placing it in my lap.
Now, scribbling in my note book, I begin the next ritual - start up - by memory and reflex.
Throttle - set 1/2 to 1 inch open.
Carb heat - off.
Prime - three strokes.
Magnetos - both.
Stick - full aft.
Starter - engage.
I hear the battery relay click behind my head and the starter motor spin - but the propeller struggles to turn. I've noticed the starter beginning to fail in recent weeks. Another blip of the starter, the propeller swings around - once, twice - and the Lycoming coughs to life.
The engine settles into one thousand revolutions per minute. The Lycoming engineers, far more intelligent than I, decree that the airman must wait until their engine has reached at least 200 degrees at the cylinder heads before advancing the throttle beyond 1200 RPM. Not having the education and intelligence to question their calculations and based on the testimony of their product's continued performance over four decades, I'm quite happy to follow their instructions.
Next, the pilot is tasked with ensuring that the engine gives all indications that it will be able to sustain him for the duration of the flight. This involves checks of the engine's ability to faithfully produce power under various settings manipulated by the pilot. Of course, this "run-up" is no guarantee against engine failure - as many have painfully discovered. Rather, it is a final opportunity to uncover any mechanical mischief before casting off into the wild blue yonder - where options are far less gracious and results largely cruel.
The take-off can be a nail-biting affair in the Smith. As we've established, the little biplane requires the pilot's complete care and attention. Things happen quickly. At a certain point, the pilot has a final opportunity to check his progress along the field and the airplane's systems before committing to take off. Always in his mind is a grave calculation that, if called upon, he must make at lightning speed. The potential consequences of aborting a take-off must be balanced against the possibility of alighting and bringing the ship around to a successful landing. In other words, is the problem so severe to risk crashing through the perimeter fence when a take-off and modified circuit to return is all but assured?
Once the wheels break ground, the pilot immerses himself in the next ritual - expecting a loss of power at any time and deciding whether he's able to return to the field or put it down somewhere else. Early in their flying careers, pilots are taught to not attempt the "impossible turn" - returning the field - unless they've attained at least one thousand feet of altitude. Otherwise, they're taught to shove the nose down and aim for a plot of land able to accommodate their premature arrival. Over time, the turn has become more improbable than impossible - some have made it, far more have not.
Soon, we've climbed above these earthbound concerns. It's true that they still exist at greater heights but more air beneath us means more time and correspondingly more options should any inconveniences arise.
And so, the threat of their bite is dulled. The pilot rolls his shoulders back and allows his spine to fall against the seatback. The right hand's grip on the stick relaxes as the left hand flexes around the throttle, shedding any residual tension. The boots may give the rudder a playful kick as the pilot delights in the soft rocking of the biplane's nose. A flick of the wrist produces an instant response from the wings. Sounds fade, melting into a whisper of engine, wind, wires and heart. The world, while terrifyingly vast, seems to close in on man and machine so that one doesn't feel quite so small anymore.
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| The abandoned airpark at Pontiac on the north shore of the Ottawa River opposite Buckham's Bay. It was intended as a fly-in community but never materialized. (Author's Collection) |
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| While taken on an earlier flight much later in the day, this shot nicely depicts the light phenomenon described above. (Author's Collection) |
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| Overflying the Ontario side of the practice area near Fitzroy Harbour. Mohr Island is at left of frame. Note the stillness of the water and how the sky reflects. (Author's Collection) |
"Lima-Lima, Sierra-Alpha," I call out.
"Hey," comes the informal reply. "Form?"
"Why not?"
We'd crossed paths on the ground at Rockcliffe and briefed for the possibility of meeting in the practice area. Still, a quick discussion on the company frequency reviews the parameters. We'll rendezvous over Breckenridge at 2000' and the Smith will fly lead. I set up a wide orbit over the town so that Chris, climbing slowly towards us, may visually make contact and form up.
Aircraft move considerable mass at relatively high speeds and while it certainly is a big sky, a good look out must be maintained to mistakenly coming too close to another aircraft or worse. Pilots are taught not to simply scan the skies but to divide it into segments to scrutinize. This is because the human eye picks up movement. Therefore, the view should be locked off to help spy an aircraft moving relative to a stationary background.
The Champ does not fly quickly and climbs even slower. Given my higher altitude, there's a greater likelihood that he'll see me first. All the same, I push my goggles up and peer through narrowed eyes at the countryside below.
After a short while, I pick out a tiny smudge of white emerging from the ground clutter to stand out against the green of the escarpment. Before long, the smudge sprouts wings and a tail.
"I've got you," Chris reports over the radio. "My ten o'clock by about two miles."
I rock my wings. "Tally ho!"
The Champ is clawing skyward, hanging on the whirling disc of the prop. It seems to be hardly moving, really just floating off the Smith's port broad. I watch as Chris checks the climb and turns gently towards us before accelerating and sliding into echelon left.
"Two on station," crackles his voice.
"Lead," I acknowledge.
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| Chris and Champ C-FILL in formation echelon left near Luskville. (Author's Collection) |
I lead us in a descent to the south-east and then around the tip of the escarpment to overfly Gatineau. Abeam the Chelsea dam, we climb to 1700' and prepare for an overhead arrival at Rockcliffe. Throughout, the Smith and the Champ fly as one.
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| Author's self portrait with the Champ on the wing. (Author's Collection) |
Given its proximity to the ground and to other aircraft in the circuit, the formation low and over requires even greater discipline and precision than a run-of-the-mill two-ship. We've already briefed an altitude of two hundred feet above ground with the lead aircraft calling the wing's break on the overshoot.
Despite the lovely weather, it's been a sleepy morning at Rockcliffe. Our arrival and the combined roar of two hundred and five horsepower shatters the peace. As we cross the eastern perimeter fence and ease into a climb, I wave Chris off to join the crosswind for the circuit to land. The Smith and I continue climbing to the east and will join the circuit behind the Champ - mindful to give him a wider berth to allow for our faster approach speed.
With the Champ turning final and downwind checks complete, the Smith and I sweep left out of the downwind and throttle back to begin the final descent for landing. In only 25 seconds, our wheels will touch the pavement.
The landing is more art than science. There is no concrete formula and the pilot must use all their experience, judgement and skill to execute the appropriate actions for an ever-changing set of variables. Inputs - airspeed, glide slope, wind - come in and outputs - movements of stick, rudder and throttle - come out. The approach continues and the pilot's focus narrows on the patch of pavement that will host their return to earth. And then, finally, that sublime moment just before touch down when time seems to slow. The pilot can almost feel the runway below his feet - as though the ship's undercarriage is an extension of his own legs. A chirp, a rumble - the biplane wants to pull left but - no, damn you, this way! A stab of opposite rudder, perhaps a measure of brake, horses the ship back into line.
Once clear of the runway and stopped, the pilot folds back his glove, checks the time and adds to the scribbling in the notebook kept wedged under his thigh.
In the shade of the hangar, another ritual - brakes on, throttle idle, magnetos to off then on again, one by one. Now, throttle up to 1700 RPM, sure to be on the brakes, and slowly draw the red mixture control out until the engine gives a final sigh and the propeller ticks slowly to a stop. Switches off, helmet off, gloves off.
To the ticking sound of the cooling engine, I unfold myself from the cockpit and stretch out my back - running a hand along the biplane's long cowling. I rub my fingers together and chuckle softly before retreating into the hangar and rummaging through the Smith's pine kit box. I emerge again into the sunshine with a spray bottle and a blue shop cloth. Now, to perform my penance for flight and the last ritual of the morning - wiping the smashed bugs off of my little biplane.
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| The final ritual - cleaning the airplane. (Author's Collection) |
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