PARTS LIST 1. Plastic BT-55 nose cone (Estes Bull Pup Style) 2. BT-55 body tube (2 pcs. 4 1/4" long) 3. BT-55 stage coupler 4. BT-5 body tube (5 pcs. 2 3/4" long) 5. BT-20 body tube (1 pc. 2 3/4" long) 6. BT-50 body tube (1 pc. 2 3/4" long) 7. 1/8" or 3/16" launch lug 8. 1/8" balsa sheet (wings and pylon core) 9. 3/32" balsa sheet (stabilizers and rudder) 10. 3/32" plywood (centering rings) 11. 1/16" plywood (pylon sides and stiffeners) 12. 1/8" X 1/2" spruce (fuselage cut to 18") 13. Material to construct 2 ea. 2 3/8" motor can hooks. (My material of preference is the metal stiffeners inside some windshield wipers) 14. (optional) Material to construct 7 motor hooks. (same material as above) 15. 1 1/2" crepe paper streamer material 6 feet long 16. Kevlar shock line 4 feet long 17. Material to laminate motor can hooks to the side of the pod body tube (ripstop nylon is perfect) CONSTRUCTION I am going to assume that you are a modeler that has experience building scratch/complicated models, so I am going to keep the instructions to a minimum. But if you need any help feel free to e-mail me at Rockmanzzz@aol.com 1. Cut out all parts from template sheet in quantities as noted. 2. Construct all motor cans with the forward end of tubes flush with the forward centering rings. (if motor hooks are desired, you will have to cut slots for them in the rear centering rings) Glue the rear centering rings on so that you have a total height of 2 3/8" from the front end of the forward centering ring to the back end of the aft centering ring. (you will have an extra 18mm centering ring left over that will be used later) Do not make the fillets on the back end of the aft centering ring too large and you might want to wait on these fillets till the motor can hooks are in place and test fitted in each can configuration. 3. Make motor can hooks 2 3/8" long and place on one of the BT-55 tubes with the inside of the hook even with the end of the body tube and cover the upper 1" of the hook with the laminating material. Glue the extra 18mm centering ring into the tube on the top of the motor can hooks making sure that there is a fillet *only* on the upper side (away from the hooks). Next glue the stage coupler in the tube with the kevlar shock line run inside and in between the body tube and the coupler. Run the other end of the kevlar through the other piece of BT-55 tube and tie to the nose cone eye. Wrap enough tape around the nose cone shoulder to get a good friction fit, and place on the top of the BT-55 tube. Make a loop knot in the middle of the kevlar line and tape it to the center of the crepe paper streamer with masking tape. Cut the hook section out of the pylon sides and assemble the pylon using the sides, core, and a piece of paper cut to the shape of the pylon core (the paper is to shim up the sides of the pylon to allow the 1/8" wide fuselage to slide in and out easily). Glue the pylon to the rear end of the body tube at a 90-degree angle to the motor can hooks and flush to the end of the body tube and fillet one side. Glue one of the launch lugs to the unfilleted side of the pylon flush with the end of the tube. Using a launch rod for alignment, glue the other launch lug to the upper body tube section. 4. Round one end of the fuselage and starting at 9 1/2" from the round end, taper the fuselage down to 1/4" at the aft end and sand a half round on that end from the top. Also on the top of the fuselage, mark the wing area at 6" and 9 1/2". The wing will sit in this area. Sand all edges (except the root) on the rudder and stabilizers round. Sand a normal flat bottom airfoil on the wings (making sure to make one left and one right). Sand an angle on wing root edges so that when assembled, one wing will rise up 5" off the work surface when the other is flat. Glue the stabilizer parts together at the root edges. Glue the rudder to one side of the stabilizer assembly. Glue the stabilizer/rudder assembly to the underside of the fuselage. Attach the hooks to the side of the fuselage as indicated on the template sheet at about 5/8" back from the rounded end using the pylon to align them. Fillet the outside edges of the hooks. Glue the wing together with the 2 1/2" dihedral per panel (5" total). Sand the bottom of the wing joint flat to sit in the saddle area. Tack the wing to the fuselage in the middle of the two marks you made earlier and do a test glide. You might have to break the tack and reposition several times to get a good glide. When you are satisfied with the glide, mark the fuselage and break it away for final gluing. When gluing the wing on, you will want to have one wing tip higher than the other by 1/4". (one wing will rise 2 5/8" from the top of the fuselage and the other will rise 2 3/8" [adding the fuselage height will make the heights 3 1/8" and 2 5/8" respectively]). Glue a stiffener to each side of the fuselage directly under the wing. Glue the other stiffeners to the bottom of the wings flush against the stiffeners on the fuselage and trim the overhang on the front of the wing. Put *big* honking epoxy coating/fillets on the stiffeners and you're ready to final trim and finish the model. CONSTRUCITON NOTES 1. I used epoxy extensively in the construction of my model. 2. On the wings, I started out coating the rear edges of the wing with thin CA to keep it from splintering, a coat of clear dope on all balsa to further harden it, then a couple of coats of sanding sealer to finish sealing the grain. 3. I used flourescent orange on my model, and I'm glad I did because of the one D12-5 flight that seemed to hang in the air forever and landed over a hill about a half a mile from the launch site (was a little windy that day). If I had used a non flourescent color, I would probably never have found it. FLYING THE MOD-U-LIPTICAL I have flown the model on 5 different engine combos: 2 X A3-4T 2 X A10-3T 3 X A10-3T 1 X C6-5 1 X D12-5 All combos have worked well and I would venture to say that it could also be flown on a B4-4 or a B6-4. Being able to withstand a D12-5, I would venture to say that it would work well on a D13 18mm RMS and *possibly* a low power E 24mm RMS.