![]() 507 parallax is one of those perceptual things that you notice the most when looking out the window of a fast moving vehicle, like a train. Type: Sport model Skill level: Intermediate Wingspan: 32 inches Length: 33.5 inches Weight: 14-17 ounces Wing area: 161 square inches Power system: 100-200 watt outrunner 3S 800 to 1,300 mAh LiPo battery Construction: FoamĬastle Creations (913) 390-6939 E-flite (800) 338-4639 ElectriFly (800) 637-7660 Hitec RCD (858) 748-6948 Thunder Power RC (702) 228-8883 AMA Plans Service (800) 435-9262, ext. All foreign orders are folded and shipped First Class. All domestic plans are shipped rolled via priority mail. Please allow at least one to three weeks for delivery within the United States-longer for overseas. Plans cost $12.00 plus shipping and handling. ![]() Terry DunnĪsymmetric park flyer by Terry Dunn spanning 32 inches. Read the entire build article and see more construction photos in the May 2014 issue of Model Aviation. If you’d like to join me, I think you’ll agree that the Parallax is a good place to start. I am far from finished with this foray into a seemingly untapped genre. I have also realized that understanding and utilizing asymmetry opens countless new and exciting possibilities for unique designs. ![]() My adventures with the Parallax have satisfied my intent to learn more about the intricacies of asymmetric airplanes. As long as you’ve kept it light and stuck to the plans (or the allowed deviations), you should have a well-mannered sport airplane with aerobatic capability. You may not believe it until you see it, but the Parallax flies normally. Note that the motor is on the right side, necessitating a reverse-rotation propeller. This late 1930s-style Parallax is an example of how diverse themes can be achieved with subtle differences in shapes and colors. This unit is ready for a coat of paint and finish work. The all-foam airframe of the Parallax produces a lightweight and easily repairable structure. Here, the carbon-fiber spars are being glued into place before adding the top sheeting. The Parallax is built with Depron foam and requires no ribs. This airplane is the foam-and-LiPo embodiment of the notion that airplanes don’t necessarily have to look right to fly well. My position is that little is compromised despite its asymmetry. I make no claims that any aspect of the airplane’s performance is enhanced by its asymmetry. The Parallax is slightly more than a modern adaptation of the Bv 141. The Parallax is the result of these efforts. Next, I set out to design an asymmetric model that would appear radically unconventional, perhaps even unairworthy to some, yet would have stable and predictable flying traits. After I realized that asymmetry is the norm rather than the exception, my question changed from “How do asymmetric airplanes work?” to “How much asymmetry can be tolerated?” I started with one confidence-building asymmetric kitbash of a Flyzone Red Hawk (see “The Joy of Kitbashing” in the August 2012 MA). With one or more propellers generating a spiraling slipstream, torque effects, gyroscopic forces, and sometimes uneven thrust (P-factor), it’s a wonder that any propeller-driven airplane can fly in a straight line! Yet, straight and level flight was mastered a long time ago. My breakthrough came when I realized that nearly all propeller-driven airplanes are asymmetric to some degree. Both of these designs are proven successes, yet their unconventional configurations make one question how they can even fly in a straight line. When I began this quest for knowledge, I had the classic examples of asymmetry in mind-namely the Blohm und Voss Bv 141 and Rutan Boomerang. I recently set out to expand my understanding of asymmetric aircraft. Exploring asymmetry with an unconventional configuration Article, photos, and design by Terry Dunn Read the full article in the May 2014 issue of Model Aviation.
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