![tokek yang paling mahal tokek yang paling mahal](https://asset.kompas.com/crops/H2z6Qf9B1b-fX4ERf2sOt_jiJUY=/180x0:823x643/340x340/data/photo/2019/07/23/5d36c59bf0b5a.jpg)
A question mark shape works well, but other neck shapes are fine. Position the units in position A and insert one unit into the pockets of a second unit. Head and Neck: connect approximately 30 triangular units in a linear manner. Row 20 will only have one triangular unit on each side: it is the tip of the swan’s wing.Īs you assemble, allow the pieces to curve naturally to form a bowl-like shape. The 3D origami swan will get more and more narrow forming two triangular wing sections. In each row, use one less triangular unit. Rows 8 – 20: continue to add more triangular units row after row. Shown: the units at “12 oclock” and “6 oclock” have been removed. Remove 2 triangular units across from one another. Row 7: Add triangular units to form Row 7 as above. Rows 4 to 6: Continue adding more triangular units until you have completed Rows 4, 5, and 6. Bottom right shows 3 layers (= 3 rows) while top left shows 2 layers of units (= only 2 rows assembled). Note how you can identify where the next piece goes by counting the layers. Inter-locking the units in this manner will keep the 3D origami swan body together. Be sure to insert the points of two different units into one connector unit. Note that the triangular units are now added while in position B. Row 3: continue assembling the body of the 3D origami swan by adding more triangular units. Turn the ring over so it no longer looks like a cone: now it looks more like the bottom of a bowl. At this point you would have used 30 units for Row 1 and 30 connector units which make up Row 2 of the origami swan. Connect the first and last pieces together to form a ring. Repeat until all Row 1 units have been assembled. – connect them together with another triangular unit
![tokek yang paling mahal tokek yang paling mahal](https://i.ytimg.com/vi/JSFQ18v0YKI/hqdefault.jpg)
– place the cluster made above beside another Row-1 unit – insert the points into the pockets of a connector unit (also in position A) – place two Row 1 units side by side in position A These connector units will become Row 2 of swan. Row 2: connect Row 1 into a ring by using “connector” triangular units. The number of units you use will depend on the thickness of the paper used. Row 1: begin by arranging 30 – 35 triangular units in a row. Position B: triangle rests on the broad edge of the triangle: similar to a mountain pockets are also visible. Position A: the triangle rests on the short edges of the triangle with the pockets still visible. There are 2 ways to position the triangular units. Units are connected by inserting the pointy parts into the pockets. Note that there are 2 slits which are called “pockets”. In a classroom setting, 20 students can easily fold 20 units each to make a total of 400 units. These can be made while watching TV, while sitting in the bus, or while having coffee/tea with a friend. This type of paper folding is called Golden Venture Folding or Chinese Paper Folding.įold between 400 and 450 triangular units (instructions here). This 3D origami swan was made with 400+ sheets of paper each folded into a small triangle.