Fold Angle §

Group: 3 #group-3

Relations §

• Computational Origami: Computational origami uses algorithms to calculate optimal fold angles.
• Angles: Fold angles refer to the specific angles created when folding paper.
• Folding Techniques: Different origami folding techniques involve specific fold angle sequences.
• Origami Art: Fold angles are a key element in creating origami artworks and sculptures.
• Paper Folding: Fold angles determine the shape and form of paper folding creations.
• Valley Fold: A valley fold creates a specific fold angle that recedes inward.
• Origami Architecture: Fold angles are utilized in origami architecture to create structural forms.
• Origami Mathematics: The mathematics of origami involves studying and calculating fold angles.
• Origami Sculpture: Origami sculptures often involve complex sequences of fold angles.
• Origami Design: Origami designers carefully plan and specify fold angles in their creations.
• Folding Patterns: Folding patterns in origami provide instructions for executing precise fold angles.
• Fold: The fold angle is the angle at which a material is folded.
• Origami: Fold angles are a fundamental concept in origami, the art of paper folding.
• Modular Origami: In modular origami, fold angles are critical for connecting multiple paper units.
• Tessellations: Fold angles play a role in creating tessellated origami patterns.
• Kirigami: Kirigami, the art of paper cutting and folding, also involves precise fold angles.
• Crease Pattern: Crease patterns in origami specify the fold angles and locations for folding.
• Origami Engineering: Origami engineering applies fold angle principles to develop folding mechanisms.
• Mountain Fold: A mountain fold creates a specific fold angle that protrudes outward.
• Geometry: Fold angles are geometric concepts related to the angles formed by folding paper.